From 4df7222c5d999ecbd996517f80a3c2ca0669692a Mon Sep 17 00:00:00 2001 From: Claudio Benghi Date: Wed, 6 Mar 2024 22:14:33 +0000 Subject: [PATCH] Updated property sets. Added test for issue #25 --- ids-lib.codegen/ids-lib.codegen.csproj | 4 +- ids-lib/IfcSchema/SchemaInfo.Attributes.g.cs | 2 +- .../SchemaInfo.ClassAndAttributeNames.g.cs | 2 +- .../IfcSchema/SchemaInfo.MeasureNames.g.cs | 2 +- ids-lib/IfcSchema/SchemaInfo.ObjectTypes.g.cs | 2 +- .../IfcSchema/SchemaInfo.PartOfRelations.g.cs | 2 +- ids-lib/IfcSchema/SchemaInfo.Properties.g.cs | 317 +++++++++--------- ids-lib/IfcSchema/SchemaInfo.Schemas.g.cs | 2 +- ids-lib/LibraryInformation.cs | 2 +- ids-lib/ids-lib.csproj | 2 +- ids-tool.tests/IdsSchemaTests.cs | 1 + .../IfcPredefinedPropertiesTests.cs | 3 +- .../Issue 25 - Pset_ConstructionOccurence.ids | 32 ++ ids-tool.tests/IssueTests.cs | 7 + ids-tool.tests/ids-tool.tests.csproj | 9 +- ids-tool/ids-tool.csproj | 2 +- 16 files changed, 218 insertions(+), 173 deletions(-) create mode 100644 ids-tool.tests/IssueFiles/Issue 25 - Pset_ConstructionOccurence.ids diff --git a/ids-lib.codegen/ids-lib.codegen.csproj b/ids-lib.codegen/ids-lib.codegen.csproj index 79fe1ba..136dd80 100644 --- a/ids-lib.codegen/ids-lib.codegen.csproj +++ b/ids-lib.codegen/ids-lib.codegen.csproj @@ -10,8 +10,8 @@ - - + + diff --git a/ids-lib/IfcSchema/SchemaInfo.Attributes.g.cs b/ids-lib/IfcSchema/SchemaInfo.Attributes.g.cs index 799976a..ed0830d 100644 --- a/ids-lib/IfcSchema/SchemaInfo.Attributes.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.Attributes.g.cs @@ -1,4 +1,4 @@ -// generated code via ids-lib.codegen using Xbim.Essentials 6.0.0.443 - any changes made directly here will be lost +// generated code via ids-lib.codegen using Xbim.Essentials 6.0.445.0 - any changes made directly here will be lost using System; diff --git a/ids-lib/IfcSchema/SchemaInfo.ClassAndAttributeNames.g.cs b/ids-lib/IfcSchema/SchemaInfo.ClassAndAttributeNames.g.cs index cbcc872..7304310 100644 --- a/ids-lib/IfcSchema/SchemaInfo.ClassAndAttributeNames.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.ClassAndAttributeNames.g.cs @@ -1,5 +1,5 @@ // -// This code was automatically generated with information from Xbim.Essentials 6.0.0.443. +// This code was automatically generated with information from Xbim.Essentials 6.0.445.0. // Any changes made to this file will be lost. using System; diff --git a/ids-lib/IfcSchema/SchemaInfo.MeasureNames.g.cs b/ids-lib/IfcSchema/SchemaInfo.MeasureNames.g.cs index 2709604..4e3b1ae 100644 --- a/ids-lib/IfcSchema/SchemaInfo.MeasureNames.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.MeasureNames.g.cs @@ -1,5 +1,5 @@ // -// This code was automatically generated with information from Xbim.Essentials 6.0.0.443. +// This code was automatically generated with information from Xbim.Essentials 6.0.445.0. // Any changes made to this file will be lost. using System; diff --git a/ids-lib/IfcSchema/SchemaInfo.ObjectTypes.g.cs b/ids-lib/IfcSchema/SchemaInfo.ObjectTypes.g.cs index 4ef8db5..0b9f80c 100644 --- a/ids-lib/IfcSchema/SchemaInfo.ObjectTypes.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.ObjectTypes.g.cs @@ -1,4 +1,4 @@ -// programmatically generated from ids-lib.codegen using Xbim 6.0.0.443 +// programmatically generated from ids-lib.codegen using Xbim 6.0.445.0 using System.Collections.Generic; namespace IdsLib.IfcSchema; diff --git a/ids-lib/IfcSchema/SchemaInfo.PartOfRelations.g.cs b/ids-lib/IfcSchema/SchemaInfo.PartOfRelations.g.cs index 6191816..1d3ac54 100644 --- a/ids-lib/IfcSchema/SchemaInfo.PartOfRelations.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.PartOfRelations.g.cs @@ -1,5 +1,5 @@ // -// This code was automatically generated with information from Xbim.Essentials 6.0.0.443. +// This code was automatically generated with information from Xbim.Essentials 6.0.445.0. // Any changes made to this file will be lost. using System; diff --git a/ids-lib/IfcSchema/SchemaInfo.Properties.g.cs b/ids-lib/IfcSchema/SchemaInfo.Properties.g.cs index 15293ea..5ba3fc6 100644 --- a/ids-lib/IfcSchema/SchemaInfo.Properties.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.Properties.g.cs @@ -1,4 +1,4 @@ -// generated via source generation from ids-lib.codegen using Xbim.PropertySets 6.0.10.0 +// generated via source generation from ids-lib.codegen using Xbim.PropertySets 6.0.11.0 using System.Collections.Generic; namespace IdsLib.IfcSchema; @@ -748,19 +748,19 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_ActuatorPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcActuator" }); yield return new PropertySetInfo("Pset_ActuatorTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("ActuatorApplication", new [] { "DAMPERACTUATOR", "ENTRYEXITDEVICE", "FIRESMOKEDAMPERACTUATOR", "LAMPACTUATOR", "SUNBLINDACTUATOR", "VALVEPOSITIONER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates application of actuator."}, new EnumerationPropertyType("ActuatorStatus", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("FailPosition", new [] { "FAILCLOSED", "FAILOPEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Specifies the required fail-safe position of the actuator."}, new SingleValuePropertyType("ManualOverride", "IfcBoolean") { Definition = "Identifies whether hand-operated operation is provided as an override (= TRUE) or not (= FALSE). Note that this value should be set to FALSE by default in the case of a Hand Operated Actuator."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcActuator", "IfcActuatorType" }); yield return new PropertySetInfo("Pset_ActuatorTypeElectricActuator", new IPropertyTypeInfo[] { new SingleValuePropertyType("ActuatorInputPower", "IfcPowerMeasure") { Definition = "Maximum input power requirement."}, new SingleValuePropertyType("ControlPulseCurrent", "IfcElectricCurrentMeasure") { Definition = "The current of the electric actuator control pulse."}, new EnumerationPropertyType("ElectricActuatorType", new [] { "MAGNETIC", "MOTORDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies electric actuator as defined by its operational principle."} }, new [] { "IfcActuator", "IfcActuatorType" }); - yield return new PropertySetInfo("Pset_ActuatorTypeHydraulicActuator", new IPropertyTypeInfo[] { new SingleValuePropertyType("InputFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum input flowrate requirement."}, new SingleValuePropertyType("InputPressure", "IfcPressureMeasure") { Definition = "Maximum input or design pressure for the object."} }, new [] { "IfcActuator", "IfcActuatorType" }); + yield return new PropertySetInfo("Pset_ActuatorTypeHydraulicActuator", new IPropertyTypeInfo[] { new SingleValuePropertyType("InputFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum input flowrate requirement.\n\nHydraulic flowrate."}, new SingleValuePropertyType("InputPressure", "IfcPressureMeasure") { Definition = "Maximum input or design pressure for the object.\n\nMaximum design pressure for the actuator."} }, new [] { "IfcActuator", "IfcActuatorType" }); yield return new PropertySetInfo("Pset_ActuatorTypeLinearActuation", new IPropertyTypeInfo[] { new SingleValuePropertyType("Force", "IfcForceMeasure") { Definition = "Indicates the maximum close-off force for the actuator."}, new SingleValuePropertyType("Stroke", "IfcLengthMeasure") { Definition = "Indicates the maximum distance the actuator must traverse."} }, new [] { "IfcActuator", "IfcActuatorType" }); - yield return new PropertySetInfo("Pset_ActuatorTypePneumaticActuator", new IPropertyTypeInfo[] { new SingleValuePropertyType("InputFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum input flowrate requirement."}, new SingleValuePropertyType("InputPressure", "IfcPressureMeasure") { Definition = "Maximum input or design pressure for the object."} }, new [] { "IfcActuator", "IfcActuatorType" }); + yield return new PropertySetInfo("Pset_ActuatorTypePneumaticActuator", new IPropertyTypeInfo[] { new SingleValuePropertyType("InputFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum input flowrate requirement.\n\nControl air flowrate."}, new SingleValuePropertyType("InputPressure", "IfcPressureMeasure") { Definition = "Maximum input or design pressure for the object.\n\nControl air pressure."} }, new [] { "IfcActuator", "IfcActuatorType" }); yield return new PropertySetInfo("Pset_ActuatorTypeRotationalActuation", new IPropertyTypeInfo[] { new SingleValuePropertyType("RangeAngle", "IfcPlaneAngleMeasure") { Definition = "Indicates the maximum rotation the actuator must traverse."}, new SingleValuePropertyType("Torque", "IfcTorqueMeasure") { Definition = "Indicates the maximum close-off torque for the actuator."} }, new [] { "IfcActuator", "IfcActuatorType" }); - yield return new PropertySetInfo("Pset_Address", new IPropertyTypeInfo[] { new SingleValuePropertyType("Country", "IfcLabel") { Definition = "The two letter country code (from ISO 3166)."}, new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("InternalLocation", "IfcLabel") { Definition = "An organization defined address for internal mail delivery."}, new SingleValuePropertyType("PagerNumber", "IfcLabel") { Definition = "The pager number at which paging messages may be received."}, new SingleValuePropertyType("PostalBox", "IfcLabel") { Definition = "An address that is implied by an identifiable mail drop."}, new SingleValuePropertyType("PostalCode", "IfcLabel") { Definition = "The code that is used by the country's postal service."}, new EnumerationPropertyType("Purpose", new [] { "DISTRIBUTIONPOINT", "HOME", "OFFICE", "SITE", "USERDEFINED" } ) { Definition = "Purpose; usually an enumeration."}, new SingleValuePropertyType("Region", "IfcLabel") { Definition = "The name of a region.EXAMPLE The counties of the United Kingdom and the states of North America are examples of regions."}, new SingleValuePropertyType("Town", "IfcLabel") { Definition = "The name of a town."}, new SingleValuePropertyType("UserDefinedPurpose", "IfcLabel") { Definition = "Allows for specification of user specific purpose of the address beyond the enumeration values provided by Purpose attribute of type IfcAddressTypeEnum. When a value is provided for attribute UserDefinedPurpose, in parallel the attribute Purpose shall have enumeration value USERDEFINED."}, new SingleValuePropertyType("WWWHomePageURL", "IfcURIReference") { Definition = "The world wide web address at which the preliminary page of information for the person or organization can be located.NOTE Information on the world wide web for a person or organization may be separated into a number of pages and across a number of host sites, all of which may be linked together. It is assumed that all such information may be referenced from a single page that is termed the home page for that person or organization."} }, new [] { "IfcActor", "IfcBuilding", "IfcSite" }); + yield return new PropertySetInfo("Pset_Address", new IPropertyTypeInfo[] { new SingleValuePropertyType("Country", "IfcLabel") { Definition = "The two letter country code (from ISO 3166)."}, new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("InternalLocation", "IfcLabel") { Definition = "An organization defined address for internal mail delivery."}, new SingleValuePropertyType("PagerNumber", "IfcLabel") { Definition = "The pager number at which paging messages may be received."}, new SingleValuePropertyType("PostalBox", "IfcLabel") { Definition = "An address that is implied by an identifiable mail drop."}, new SingleValuePropertyType("PostalCode", "IfcLabel") { Definition = "The code that is used by the country's postal service."}, new EnumerationPropertyType("Purpose", new [] { "DISTRIBUTIONPOINT", "HOME", "OFFICE", "SITE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indication of the purpose of this object"}, new SingleValuePropertyType("Region", "IfcLabel") { Definition = "The name of a region.EXAMPLE The counties of the United Kingdom and the states of North America are examples of regions."}, new SingleValuePropertyType("Town", "IfcLabel") { Definition = "The name of a town."}, new SingleValuePropertyType("UserDefinedPurpose", "IfcLabel") { Definition = "Allows for specification of user specific purpose of the address beyond the enumeration values provided by Purpose attribute of type IfcAddressTypeEnum. When a value is provided for attribute UserDefinedPurpose, in parallel the attribute Purpose shall have enumeration value USERDEFINED."}, new SingleValuePropertyType("WWWHomePageURL", "IfcURIReference") { Definition = "The world wide web address at which the preliminary page of information for the person or organization can be located.NOTE Information on the world wide web for a person or organization may be separated into a number of pages and across a number of host sites, all of which may be linked together. It is assumed that all such information may be referenced from a single page that is termed the home page for that person or organization."} }, new [] { "IfcActor", "IfcBuilding", "IfcSite" }); yield return new PropertySetInfo("Pset_AirSideSystemInformation", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowSensible", "IfcVolumetricFlowRateMeasure"), new EnumerationPropertyType("AirSideSystemDistributionType", new [] { "DUALDUCT", "MULTIZONE", "SINGLEDUCT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "This enumeration defines the basic types of air side systems (e.g., SingleDuct, DualDuct, Multizone, etc.)."}, new EnumerationPropertyType("AirSideSystemType", new [] { "CONSTANTVOLUME", "CONSTANTVOLUMEBYPASS", "CONSTANTVOLUMEMULTIPLEZONEREHEAT", "CONSTANTVOLUMESINGLEZONE", "VARIABLEAIRVOLUME", "VARIABLEAIRVOLUMEDUALCONDUIT", "VARIABLEAIRVOLUMEFANPOWERED", "VARIABLEAIRVOLUMEINDUCTION", "VARIABLEAIRVOLUMEREHEAT", "VARIABLEAIRVOLUMEVARIABLEDIFFUSERS", "VARIABLEAIRVOLUMEVARIABLETEMPERATURE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "This enumeration specifies the basic types of possible air side systems (e.g., Constant Volume, Variable Volume, etc.)."}, new SingleValuePropertyType("ApplianceDiversity", "IfcPositiveRatioMeasure") { Definition = "Diversity of appliance load."}, new SingleValuePropertyType("CoolingTemperatureDelta", "IfcThermodynamicTemperatureMeasure") { Definition = "Cooling temperature difference for calculating space air flow rates."}, new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("EnergyGainSensible", "IfcPowerMeasure") { Definition = "The sum of total energy gains for the spaces served by the system during the peak cooling conditions, plus any system-level sensible energy gains."}, new SingleValuePropertyType("EnergyGainTotal", "IfcPowerMeasure") { Definition = "The total amount of energy gains for the spaces served by the system during the peak cooling conditions, plus any system-level total energy gains."}, new SingleValuePropertyType("EnergyLoss", "IfcPowerMeasure") { Definition = "The sum of energy losses for the spaces served by the system during the peak heating conditions."}, new SingleValuePropertyType("FanPower", "IfcPowerMeasure") { Definition = "Fan motor loads contributing to the cooling load."}, new SingleValuePropertyType("HeatingTemperatureDelta", "IfcThermodynamicTemperatureMeasure") { Definition = "Heating temperature difference for calculating space air flow rates."}, new SingleValuePropertyType("InfiltrationDiversitySummer", "IfcPositiveRatioMeasure") { Definition = "Diversity factor for Summer infiltration."}, new SingleValuePropertyType("InfiltrationDiversityWinter", "IfcPositiveRatioMeasure") { Definition = "Diversity factor for Winter infiltration."}, new SingleValuePropertyType("TotalAirFlow", "IfcVolumetricFlowRateMeasure"), new SingleValuePropertyType("Ventilation", "IfcVolumetricFlowRateMeasure") { Definition = "Required outside air ventilation."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone" }); yield return new PropertySetInfo("Pset_AirTerminalBoxPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcAirTerminalBox" }); - yield return new PropertySetInfo("Pset_AirTerminalBoxTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new SingleValuePropertyType("AirPressureRange", "IfcPressureMeasure") { Definition = "Allowable air static pressure range at the entrance of the air terminal box."}, new EnumerationPropertyType("ArrangementType", new [] { "DUALDUCT", "SINGLEDUCT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Terminal box arrangement.\nSingleDuct: Terminal box receives warm or cold air from a single air supply duct.\nDualDuct: Terminal box receives warm and cold air from separate air supply ducts."}, new SingleValuePropertyType("HasFan", "IfcBoolean") { Definition = "Terminal box has a fan inside (fan powered box)."}, new SingleValuePropertyType("HasReturnAir", "IfcBoolean") { Definition = "Terminal box has return air mixed with supply air from duct work."}, new SingleValuePropertyType("HasSoundAttenuator", "IfcBoolean") { Definition = "If TRUE, the object has sound attenuation."}, new SingleValuePropertyType("HousingThickness", "IfcLengthMeasure") { Definition = "Air terminal box housing material thickness."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NominalDamperDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal damper diameter."}, new SingleValuePropertyType("NominalInletAirPressure", "IfcPressureMeasure") { Definition = "Nominal airflow inlet static pressure."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("ReheatType", new [] { "ELECTRICALREHEAT", "GASREHEAT", "NONE", "STEAMCOILREHEAT", "WATERCOILREHEAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Terminal box reheat type."}, new SingleValuePropertyType("ReturnAirFractionRange", "IfcPositiveRatioMeasure") { Definition = "Allowable return air fraction range as a fraction of discharge airflow."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcAirTerminalBox", "IfcAirTerminalBoxType" }); - yield return new PropertySetInfo("Pset_AirTerminalOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Air flow rate."}, new EnumerationPropertyType("AirFlowType", new [] { "EXHAUSTAIR", "RETURNAIR", "SUPPLYAIR", "OTHER", "NOTKNOWN", "UNSET" } ), new EnumerationPropertyType("AirTerminalLocation", new [] { "CEILINGINTERIOR", "CEILINGPERIMETER", "FLOOR", "SIDEWALLHIGH", "SIDEWALLLOW", "SILL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Location (a single type of diffuser can be used for multiple locations); high means close to ceiling."} }, new [] { "IfcAirTerminal" }); + yield return new PropertySetInfo("Pset_AirTerminalBoxTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new SingleValuePropertyType("AirPressureRange", "IfcPressureMeasure") { Definition = "Allowable air static pressure range at the entrance of the air terminal box."}, new EnumerationPropertyType("ArrangementType", new [] { "DUALDUCT", "SINGLEDUCT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Terminal box arrangement.\nSingleDuct: Terminal box receives warm or cold air from a single air supply duct.\nDualDuct: Terminal box receives warm and cold air from separate air supply ducts."}, new SingleValuePropertyType("HasFan", "IfcBoolean") { Definition = "Terminal box has a fan inside (fan powered box)."}, new SingleValuePropertyType("HasReturnAir", "IfcBoolean") { Definition = "Terminal box has return air mixed with supply air from duct work."}, new SingleValuePropertyType("HasSoundAttenuator", "IfcBoolean") { Definition = "If TRUE, the object has sound attenuation."}, new SingleValuePropertyType("HousingThickness", "IfcLengthMeasure") { Definition = "Air terminal box housing material thickness."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NominalDamperDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal damper diameter."}, new SingleValuePropertyType("NominalInletAirPressure", "IfcPressureMeasure") { Definition = "Nominal airflow inlet static pressure."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range.\n\nAllowable operational range of the ambient air temperature."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("ReheatType", new [] { "ELECTRICALREHEAT", "GASREHEAT", "NONE", "STEAMCOILREHEAT", "WATERCOILREHEAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Terminal box reheat type."}, new SingleValuePropertyType("ReturnAirFractionRange", "IfcPositiveRatioMeasure") { Definition = "Allowable return air fraction range as a fraction of discharge airflow."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcAirTerminalBox", "IfcAirTerminalBoxType" }); + yield return new PropertySetInfo("Pset_AirTerminalOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Air flow rate.\n\nThe actual airflow rate as designed."}, new EnumerationPropertyType("AirFlowType", new [] { "EXHAUSTAIR", "RETURNAIR", "SUPPLYAIR", "OTHER", "NOTKNOWN", "UNSET" } ), new EnumerationPropertyType("AirTerminalLocation", new [] { "CEILINGINTERIOR", "CEILINGPERIMETER", "FLOOR", "SIDEWALLHIGH", "SIDEWALLLOW", "SILL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Location (a single type of diffuser can be used for multiple locations); high means close to ceiling."} }, new [] { "IfcAirTerminal" }); yield return new PropertySetInfo("Pset_AirTerminalPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcAirTerminal" }); - yield return new PropertySetInfo("Pset_AirTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirDiffusionPerformanceIndex", "IfcReal") { Definition = "The Air Diffusion Performance Index (ADPI) is used for cooling mode conditions. If several measurements of air velocity and air temperature are made throughout the occupied zone of a space, the ADPI is the percentage of locations where measurements were taken that meet the specifications for effective draft temperature and air velocity."}, new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new EnumerationPropertyType("AirTerminalMountingType", new [] { "FLATFLUSH", "LAYIN", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The way the air terminal is mounted to the ceiling, wall, etc.Surface: mounted to the surface of something (e.g., wall, duct, etc.).\nFlat flush: mounted flat and flush with a surface.\nLay-in: mounted in a lay-in type ceiling (e.g., a dropped ceiling grid)."}, new EnumerationPropertyType("AirTerminalShape", new [] { "RECTANGULAR", "ROUND", "SLOT", "SQUARE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Shape of the air terminal. Slot is typically a long narrow supply device with an aspect ratio generally greater than 10 to 1."}, new SingleValuePropertyType("CoreSetHorizontal", "IfcPlaneAngleMeasure") { Definition = "Degree of horizontal (in the X-axis of the LocalPlacement) blade set from the centerline."}, new SingleValuePropertyType("CoreSetVertical", "IfcPlaneAngleMeasure") { Definition = "Degree of vertical (in the Y-axis of the LocalPlacement) blade set from the centerline."}, new EnumerationPropertyType("CoreType", new [] { "CURVEDBLADE", "NONE", "REMOVABLE", "REVERSIBLE", "SHUTTERBLADE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the way the core of the AirTerminal is constructed."}, new EnumerationPropertyType("DischargeDirection", new [] { "ADJUSTABLE", "PARALLEL", "PERPENDICULAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Discharge direction of the air terminal.Parallel: discharges parallel to mounting surface designed so that flow attaches to the surface.\nPerpendicular: discharges away from mounting surface.\nAdjustable: both parallel and perpendicular discharge."}, new SingleValuePropertyType("EffectiveArea", "IfcAreaMeasure") { Definition = "Effective discharge area of the air terminal."}, new EnumerationPropertyType("FaceType", new [] { "DOUBLEDEFLECTION", "EGGCRATE", "FOURWAYPATTERN", "LOUVERED", "PERFORATED", "SIGHTPROOF", "SINGLEDEFLECTION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies how the terminal face of an AirTerminal is constructed."}, new SingleValuePropertyType("FinishColour", "IfcLabel"), new EnumerationPropertyType("FinishType", new [] { "ANNODIZED", "NONE", "PAINTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of finish for the air terminal."}, new EnumerationPropertyType("FlowControlType", new [] { "BELLOWS", "DAMPER", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of flow control element that may be included as a part of the construction of the air terminal."}, new EnumerationPropertyType("FlowPattern", new [] { "COMPACTJET", "DISPLACMENT", "LINEARDOUBLE", "LINEARFOURWAY", "LINEARSINGLE", "RADIAL", "SWIRL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Flow pattern."}, new SingleValuePropertyType("HasIntegralControl", "IfcBoolean") { Definition = "If TRUE, a self powered temperature control is included in the AirTerminal."}, new SingleValuePropertyType("HasSoundAttenuator", "IfcBoolean") { Definition = "If TRUE, the object has sound attenuation."}, new SingleValuePropertyType("HasThermalInsulation", "IfcBoolean") { Definition = "If TRUE, the air terminal has thermal insulation."}, new SingleValuePropertyType("NeckArea", "IfcAreaMeasure") { Definition = "Neck area of the air terminal."}, new SingleValuePropertyType("NumberOfSlots", "IfcCountMeasure") { Definition = "Indicates the number of slots."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SlotLength", "IfcPositiveLengthMeasure") { Definition = "Slot length."}, new SingleValuePropertyType("SlotWidth", "IfcPositiveLengthMeasure") { Definition = "Slot width."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("ThrowLength", "IfcLengthMeasure") { Definition = "The horizontal or vertical axial distance an airstream travels after leaving an AirTerminal before the maximum stream velocity is reduced to a specified terminal velocity under isothermal conditions at the upper value of the AirFlowrateRange."} }, new [] { "IfcAirTerminal", "IfcAirTerminalType" }); + yield return new PropertySetInfo("Pset_AirTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirDiffusionPerformanceIndex", "IfcReal") { Definition = "The Air Diffusion Performance Index (ADPI) is used for cooling mode conditions. If several measurements of air velocity and air temperature are made throughout the occupied zone of a space, the ADPI is the percentage of locations where measurements were taken that meet the specifications for effective draft temperature and air velocity."}, new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered.\n\nAir flowrate range within which the air terminal is designed to operate."}, new EnumerationPropertyType("AirTerminalMountingType", new [] { "FLATFLUSH", "LAYIN", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The way the air terminal is mounted to the ceiling, wall, etc.Surface: mounted to the surface of something (e.g., wall, duct, etc.).\nFlat flush: mounted flat and flush with a surface.\nLay-in: mounted in a lay-in type ceiling (e.g., a dropped ceiling grid)."}, new EnumerationPropertyType("AirTerminalShape", new [] { "RECTANGULAR", "ROUND", "SLOT", "SQUARE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Shape of the air terminal. Slot is typically a long narrow supply device with an aspect ratio generally greater than 10 to 1."}, new SingleValuePropertyType("CoreSetHorizontal", "IfcPlaneAngleMeasure") { Definition = "Degree of horizontal (in the X-axis of the LocalPlacement) blade set from the centerline."}, new SingleValuePropertyType("CoreSetVertical", "IfcPlaneAngleMeasure") { Definition = "Degree of vertical (in the Y-axis of the LocalPlacement) blade set from the centerline."}, new EnumerationPropertyType("CoreType", new [] { "CURVEDBLADE", "NONE", "REMOVABLE", "REVERSIBLE", "SHUTTERBLADE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the way the core of the AirTerminal is constructed."}, new EnumerationPropertyType("DischargeDirection", new [] { "ADJUSTABLE", "PARALLEL", "PERPENDICULAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Discharge direction of the air terminal.Parallel: discharges parallel to mounting surface designed so that flow attaches to the surface.\nPerpendicular: discharges away from mounting surface.\nAdjustable: both parallel and perpendicular discharge."}, new SingleValuePropertyType("EffectiveArea", "IfcAreaMeasure") { Definition = "Effective discharge area of the air terminal."}, new EnumerationPropertyType("FaceType", new [] { "DOUBLEDEFLECTION", "EGGCRATE", "FOURWAYPATTERN", "LOUVERED", "PERFORATED", "SIGHTPROOF", "SINGLEDEFLECTION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies how the terminal face of an AirTerminal is constructed."}, new SingleValuePropertyType("FinishColour", "IfcLabel") { Definition = "The finish colour of the object."}, new EnumerationPropertyType("FinishType", new [] { "ANNODIZED", "NONE", "PAINTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of finish for the air terminal."}, new EnumerationPropertyType("FlowControlType", new [] { "BELLOWS", "DAMPER", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of flow control element that may be included as a part of the construction of the air terminal."}, new EnumerationPropertyType("FlowPattern", new [] { "COMPACTJET", "DISPLACMENT", "LINEARDOUBLE", "LINEARFOURWAY", "LINEARSINGLE", "RADIAL", "SWIRL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Flow pattern."}, new SingleValuePropertyType("HasIntegralControl", "IfcBoolean") { Definition = "If TRUE, a self powered temperature control is included in the AirTerminal."}, new SingleValuePropertyType("HasSoundAttenuator", "IfcBoolean") { Definition = "If TRUE, the object has sound attenuation."}, new SingleValuePropertyType("HasThermalInsulation", "IfcBoolean") { Definition = "If TRUE, the air terminal has thermal insulation."}, new SingleValuePropertyType("NeckArea", "IfcAreaMeasure") { Definition = "Neck area of the air terminal."}, new SingleValuePropertyType("NumberOfSlots", "IfcCountMeasure") { Definition = "Indicates the number of slots."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SlotLength", "IfcPositiveLengthMeasure") { Definition = "Slot length."}, new SingleValuePropertyType("SlotWidth", "IfcPositiveLengthMeasure") { Definition = "Slot width."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature.\n\nTemperature range within which the air terminal is designed to operate."}, new SingleValuePropertyType("ThrowLength", "IfcLengthMeasure") { Definition = "The horizontal or vertical axial distance an airstream travels after leaving an AirTerminal before the maximum stream velocity is reduced to a specified terminal velocity under isothermal conditions at the upper value of the AirFlowrateRange."} }, new [] { "IfcAirTerminal", "IfcAirTerminalType" }); yield return new PropertySetInfo("Pset_AirToAirHeatRecoveryPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcAirToAirHeatRecovery" }); - yield return new PropertySetInfo("Pset_AirToAirHeatRecoveryTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasDefrost", "IfcBoolean") { Definition = "has the heat exchanger has defrost function or not."}, new EnumerationPropertyType("HeatTransferTypeEnum", new [] { "LATENT", "SENSIBLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of heat transfer between the two air streams."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("PrimaryAirFlowRateRange", "IfcVolumetricFlowRateMeasure"), new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecondaryAirFlowRateRange", "IfcPressureMeasure"), new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcAirToAirHeatRecovery", "IfcAirToAirHeatRecoveryType" }); + yield return new PropertySetInfo("Pset_AirToAirHeatRecoveryTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasDefrost", "IfcBoolean") { Definition = "has the heat exchanger has defrost function or not."}, new EnumerationPropertyType("HeatTransferTypeEnum", new [] { "LATENT", "SENSIBLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of heat transfer between the two air streams."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally.\n\nAllowable operation ambient air temperature range."}, new SingleValuePropertyType("PrimaryAirFlowRateRange", "IfcVolumetricFlowRateMeasure"), new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecondaryAirFlowRateRange", "IfcPressureMeasure"), new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcAirToAirHeatRecovery", "IfcAirToAirHeatRecoveryType" }); yield return new PropertySetInfo("Pset_AlarmPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcAlarm" }); yield return new PropertySetInfo("Pset_AlarmTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcAlarm", "IfcAlarmType" }); yield return new PropertySetInfo("Pset_AlignmentCantSegmentCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CantDeficiency", "IfcLengthMeasure") { Definition = "Difference between applied cant and a higher equilibrium cant."}, new SingleValuePropertyType("CantEquilibrium", "IfcLengthMeasure") { Definition = "Cant at a particular speed at which the vehicle will have a resultant force perpendicular to the running plane."}, new SingleValuePropertyType("EndSmoothingLength", "IfcPositiveLengthMeasure") { Definition = "Length for the circular transition change of curvature at the end of the cant segment, measured from the start of the circular transition change of curvature to the end of the cant segment."}, new SingleValuePropertyType("StartSmoothingLength", "IfcPositiveLengthMeasure") { Definition = "Length for the circular transition change of curvature at the start of the cant segment, measured from the start of the cant segment to the end of the circular transition change of curvature."} }, new [] { "IfcAlignmentSegment" }); @@ -783,18 +783,18 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_AudioVisualApplianceTypeTuner", new IPropertyTypeInfo[] { new SingleValuePropertyType("TunerFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the tuner frequencies, if applicable."}, new EnumerationPropertyType("TunerType", new [] { "AUDIO", "VIDEO", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the tuner type."} }, new [] { "IfcAudioVisualAppliance", "IfcAudioVisualApplianceType" }); yield return new PropertySetInfo("Pset_AxleCountingEquipment", new IPropertyTypeInfo[] { new SingleValuePropertyType("AxleCounterResponseTime", "IfcTimeMeasure") { Definition = "The time that axle counter can detect the axles of locomotive and vehicle."}, new EnumerationPropertyType("AxleCountingEquipmentType", new [] { "EVALUATOR", "WHEELDETECTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of axle counting equipment."}, new SingleValuePropertyType("DetectionRange", "IfcPositiveLengthMeasure") { Definition = "The detection range of the equipment."}, new SingleValuePropertyType("FailureInformation", "IfcText") { Definition = "The information for failure description."}, new SingleValuePropertyType("ImpactParameter", "IfcAccelerationMeasure") { Definition = "Impact parameter of the equipment."}, new SingleValuePropertyType("InsulationResistance", "IfcElectricResistanceMeasure") { Definition = "Minimum resistance between one terminal or several terminals connected together and the case or enclosure of a component at specified voltage."}, new SingleValuePropertyType("MaximumVibration", "IfcFrequencyMeasure") { Definition = "Maximum tolerable vibration level of the device."}, new SingleValuePropertyType("NominalWeight", "IfcMassMeasure") { Definition = "Nominal weight of the object."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_BalanceWeightTensionerDesignCriteria", new IPropertyTypeInfo[] { }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); - yield return new PropertySetInfo("Pset_BeamCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new SingleValuePropertyType("Span", "IfcPositiveLengthMeasure") { Definition = "Clear span for this object.The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcBeam", "IfcBeamType" }); + yield return new PropertySetInfo("Pset_BeamCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis.\n\nRelative to the global Z direction for all beams that are non-vertical in regard to the global coordinate system (Profile direction equals global Z is Roll = 0.)The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only.Note: new property in IFC4"}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new SingleValuePropertyType("Span", "IfcPositiveLengthMeasure") { Definition = "Clear span for this object.The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcBeam", "IfcBeamType" }); yield return new PropertySetInfo("Pset_BearingCommon", new IPropertyTypeInfo[] { }, new [] { "IfcBearing", "IfcBearingType" }); - yield return new PropertySetInfo("Pset_BerthCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AbnormalBerthingFactor", "IfcPositiveRatioMeasure") { Definition = "Risk assessed safety factor"}, new EnumerationPropertyType("BerthApproach", new [] { "END", "SIDE" } ) { Definition = "How the vessel approaches the berth"}, new SingleValuePropertyType("BerthingAngle", "IfcPlaneAngleMeasure") { Definition = "Angle of approach for the vessel to the berth"}, new SingleValuePropertyType("BerthingVelocity", "IfcLinearVelocityMeasure") { Definition = "Velocity of the vessel as it berths"}, new EnumerationPropertyType("BerthMode", new [] { "BOW", "STERN" } ) { Definition = "Orientation of vessel as it approaches berth"} }, new [] { "IfcSpace", "IfcSpace", "IfcSpaceType", "IfcSpaceType" }); + yield return new PropertySetInfo("Pset_BerthCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AbnormalBerthingFactor", "IfcPositiveRatioMeasure") { Definition = "Risk assessed safety factor"}, new EnumerationPropertyType("BerthApproach", new [] { "END", "SIDE" } ) { Definition = "How the vessel approaches the berth"}, new SingleValuePropertyType("BerthingAngle", "IfcPlaneAngleMeasure") { Definition = "Angle of approach for the vessel to the berth"}, new SingleValuePropertyType("BerthingVelocity", "IfcLinearVelocityMeasure") { Definition = "Velocity of the vessel as it berths"}, new EnumerationPropertyType("BerthMode", new [] { "BOW", "STERN" } ) { Definition = "Orientation of vessel as it approaches berth"} }, new [] { "IfcSpace", "IfcSpaceType" }); yield return new PropertySetInfo("Pset_BoilerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcBoiler" }); - yield return new PropertySetInfo("Pset_BoilerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("EnergySource", new [] { "COAL", "COAL_PULVERIZED", "ELECTRICITY", "GAS", "OIL", "PROPANE", "WOOD", "WOOD_CHIP", "WOOD_PELLET", "WOOD_PULVERIZED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the energy source or fuel cumbusted."}, new SingleValuePropertyType("HeatTransferSurfaceArea", "IfcAreaMeasure") { Definition = "Total heat transfer area of the vessel."}, new SingleValuePropertyType("IsWaterStorageHeater", "IfcBoolean") { Definition = "This is used to identify if the boiler has storage capacity (TRUE). If FALSE, then there is no storage capacity built into the boiler, such as an instantaneous hot water heater."}, new SingleValuePropertyType("NominalEnergyConsumption", "IfcPowerMeasure") { Definition = "Nominal fuel consumption rate required to produce the total boiler heat output."}, new SingleValuePropertyType("NominalPartLoadRatio", "IfcReal") { Definition = "Allowable part load ratio range."}, new EnumerationPropertyType("OperatingMode", new [] { "FIXED", "MODULATING", "TWOSTEP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the operating mode of the boiler."}, new SingleValuePropertyType("OutletTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable outlet temperature of either the water or the steam."}, new SingleValuePropertyType("PressureRating", "IfcPressureMeasure") { Definition = "Pressure rating of the object."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterInletTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable water inlet temperature range."}, new SingleValuePropertyType("WaterStorageCapacity", "IfcVolumeMeasure") { Definition = "Water storage capacity."} }, new [] { "IfcBoiler", "IfcBoilerType" }); + yield return new PropertySetInfo("Pset_BoilerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("EnergySource", new [] { "COAL", "COAL_PULVERIZED", "ELECTRICITY", "GAS", "OIL", "PROPANE", "WOOD", "WOOD_CHIP", "WOOD_PELLET", "WOOD_PULVERIZED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the energy source or fuel cumbusted."}, new SingleValuePropertyType("HeatTransferSurfaceArea", "IfcAreaMeasure") { Definition = "Total heat transfer area of the vessel."}, new SingleValuePropertyType("IsWaterStorageHeater", "IfcBoolean") { Definition = "This is used to identify if the boiler has storage capacity (TRUE). If FALSE, then there is no storage capacity built into the boiler, such as an instantaneous hot water heater."}, new SingleValuePropertyType("NominalEnergyConsumption", "IfcPowerMeasure") { Definition = "Nominal fuel consumption rate required to produce the total boiler heat output."}, new SingleValuePropertyType("NominalPartLoadRatio", "IfcReal") { Definition = "Allowable part load ratio range."}, new EnumerationPropertyType("OperatingMode", new [] { "FIXED", "MODULATING", "TWOSTEP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the operating mode of the boiler."}, new SingleValuePropertyType("OutletTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable outlet temperature of either the water or the steam."}, new SingleValuePropertyType("PressureRating", "IfcPressureMeasure") { Definition = "Pressure rating of the object.\n\nNominal pressure rating of the boiler as rated by the agency having jurisdiction."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterInletTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable water inlet temperature range."}, new SingleValuePropertyType("WaterStorageCapacity", "IfcVolumeMeasure") { Definition = "Water storage capacity."} }, new [] { "IfcBoiler", "IfcBoilerType" }); yield return new PropertySetInfo("Pset_BoilerTypeSteam", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumOutletPressure", "IfcLabel") { Definition = "Maximum steam outlet pressure."} }, new [] { "IfcBoiler", "IfcBoilerType" }); yield return new PropertySetInfo("Pset_BoilerTypeWater", new IPropertyTypeInfo[] { }, new [] { "IfcBoiler", "IfcBoilerType" }); - yield return new PropertySetInfo("Pset_BoreholeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("BoreholeState", new [] { "CAP_REPLACED", "CASING_INSTALLED", "CASING_PARTIALLY_REPLACED", "CASING_REPLACED", "CHAMBER_RECONDITIONED", "DECONSTRUCTED", "INSTALLED", "PARTIALLY_DECONSTRUCTED", "PARTIALLY_REFILLED", "RECONDITIONED", "REFILLED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The state the borehole or trial pit has been left in. (boreholeML)."}, new SingleValuePropertyType("CapDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of cap (boreholeML)."}, new SingleValuePropertyType("CapMaterial", "IfcLabel") { Definition = "Cap material or 'NOT CAPPED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("FillingDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of filling (boreholeML)."}, new SingleValuePropertyType("FillingMaterial", "IfcLabel") { Definition = "Filling material or 'NOT FILLED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("GroundwaterDepth", "IfcPositiveLengthMeasure") { Definition = "Depth groundwater encountered (boreholeML)."}, new SingleValuePropertyType("LiningMaterial", "IfcLabel") { Definition = "Lining material or 'NOT LINED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("LiningThickness", "IfcPositiveLengthMeasure") { Definition = "Lining thickness (boreholeML)."} }, new [] { "IfcBorehole" }); + yield return new PropertySetInfo("Pset_BoreholeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("BoreholeState", new [] { "CAP_REPLACED", "CASING_INSTALLED", "CASING_PARTIALLY_REPLACED", "CASING_REPLACED", "CHAMBER_RECONDITIONED", "DECONSTRUCTED", "INSTALLED", "PARTIALLY_DECONSTRUCTED", "PARTIALLY_REFILLED", "RECONDITIONED", "REFILLED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The state the borehole or trial pit has been left in. (boreholeML)."}, new SingleValuePropertyType("CapDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of cap (boreholeML)."}, new SingleValuePropertyType("CapMaterial", "IfcLabel") { Definition = "Cap material or 'NOT CAPPED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("FillingDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of filling (boreholeML)."}, new SingleValuePropertyType("FillingMaterial", "IfcLabel") { Definition = "Filling material or 'NOT FILLED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("GroundwaterDepth", "IfcPositiveLengthMeasure") { Definition = "Depth groundwater encountered (boreholeML)."}, new SingleValuePropertyType("LiningMaterial", "IfcLabel") { Definition = "Lining material or 'NOT LINED' or 'UNKNOWN' (boreholeML)."}, new SingleValuePropertyType("LiningThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the lining."} }, new [] { "IfcBorehole" }); yield return new PropertySetInfo("Pset_BoundedCourseCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("SpreadingRate", "IfcNumericMeasure") { Definition = "The nominal overall mass of material per area covered by the course."} }, new [] { "IfcCourse", "IfcCourseType" }); yield return new PropertySetInfo("Pset_BreakwaterCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Elevation", "IfcLengthMeasure") { Definition = "Elevation of the entity"}, new SingleValuePropertyType("StructuralStyle", "IfcLabel") { Definition = "Structural style of the element"} }, new [] { "IfcMarineFacility" }); - yield return new PropertySetInfo("Pset_BridgeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("StructureIndicator", new [] { "COATED", "COMPOSITE", "HOMOGENEOUS" } ) { Definition = "Structure Indicator"} }, new [] { "IfcBridge" }); - yield return new PropertySetInfo("Pset_BuildingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BuildingID", "IfcIdentifier") { Definition = "A unique identifier assigned to a building. A temporary identifier is initially assigned at the time of making a planning application. This temporary identifier is changed to a permanent identifier when the building is registered into a statutory buildings and properties database."}, new SingleValuePropertyType("ConstructionMethod", "IfcLabel") { Definition = "The type of construction action to the object, e.g. new construction, renovation, refurbishment, etc."}, new SingleValuePropertyType("FireProtectionClass", "IfcLabel") { Definition = "Main fire protection class for the building which is assigned from the fire protection classification table as given by the relevant national building code."}, new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("IsLandmarked", "IfcLogical") { Definition = "This builing is listed as a historic building (TRUE), or not (FALSE), or unknown."}, new SingleValuePropertyType("IsPermanentID", "IfcBoolean") { Definition = "Indicates whether the identity assigned to the object is permanent (= TRUE) or temporary (=FALSE)."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("NumberOfStoreys", "IfcCountMeasure") { Definition = "The number of storeys within a building.\nCaptured for those cases where the IfcBuildingStorey entity is not used. Note that if IfcBuilingStorey is asserted and the number of storeys in a building can be determined from it, then this approach should be used in preference to setting a property for the number of storeys."}, new SingleValuePropertyType("OccupancyType", "IfcLabel") { Definition = "Occupancy type for this object.\nIt is defined according to the presiding national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SprinklerProtection", "IfcBoolean") { Definition = "Indication whether this object is sprinkler protected (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SprinklerProtectionAutomatic", "IfcBoolean") { Definition = "Indication whether this object has an automatic sprinkler protection (TRUE) or not (FALSE).\nIt should only be given, if the property \"SprinklerProtection\" is set to TRUE."}, new SingleValuePropertyType("YearOfConstruction", "IfcLabel") { Definition = "Year of construction of this building, including expected year of completion."}, new SingleValuePropertyType("YearOfLastRefurbishment", "IfcLabel") { Definition = "Year of last major refurbishment, or reconstruction, of the building (applies to reconstruction works)."} }, new [] { "IfcBuilding" }); + yield return new PropertySetInfo("Pset_BridgeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("StructureIndicator", new [] { "COATED", "COMPOSITE", "HOMOGENEOUS" } ) { Definition = "The type of bridge structure (composite, coated, homogeneous or other)"} }, new [] { "IfcBridge" }); + yield return new PropertySetInfo("Pset_BuildingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BuildingID", "IfcIdentifier") { Definition = "A unique identifier assigned to a building. A temporary identifier is initially assigned at the time of making a planning application. This temporary identifier is changed to a permanent identifier when the building is registered into a statutory buildings and properties database."}, new SingleValuePropertyType("ConstructionMethod", "IfcLabel") { Definition = "The type of construction action to the object, e.g. new construction, renovation, refurbishment, etc."}, new SingleValuePropertyType("ElevationOfRefHeight", "IfcLengthMeasure") { Definition = "Elevation above sea level of the reference height used for all storey elevation measures, equals to height 0.0. It is usually the ground floor level."}, new SingleValuePropertyType("ElevationOfTerrain", "IfcLengthMeasure") { Definition = "Elevation above the minimal terrain level around the foot print of the building, given in elevation above sea level."}, new SingleValuePropertyType("FireProtectionClass", "IfcLabel") { Definition = "Main fire protection class for the building which is assigned from the fire protection classification table as given by the relevant national building code."}, new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("IsLandmarked", "IfcLogical") { Definition = "This builing is listed as a historic building (TRUE), or not (FALSE), or unknown."}, new SingleValuePropertyType("IsPermanentID", "IfcBoolean") { Definition = "Indicates whether the identity assigned to the object is permanent (= TRUE) or temporary (=FALSE)."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("NumberOfStoreys", "IfcCountMeasure") { Definition = "The number of storeys within a building.\nCaptured for those cases where the IfcBuildingStorey entity is not used. Note that if IfcBuildingStorey is asserted and the number of storeys in a building can be determined from it, then this approach should be used in preference to setting a property for the number of storeys."}, new SingleValuePropertyType("OccupancyType", "IfcLabel") { Definition = "Occupancy type for this object.\nIt is defined according to the presiding national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SprinklerProtection", "IfcBoolean") { Definition = "Indication whether this object is sprinkler protected (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SprinklerProtectionAutomatic", "IfcBoolean") { Definition = "Indication whether this object has an automatic sprinkler protection (TRUE) or not (FALSE).\nIt should only be given, if the property \"SprinklerProtection\" is set to TRUE."}, new SingleValuePropertyType("YearOfConstruction", "IfcLabel") { Definition = "Year of construction of this building, including expected year of completion."}, new SingleValuePropertyType("YearOfLastRefurbishment", "IfcLabel") { Definition = "Year of last major refurbishment, or reconstruction, of the building (applies to reconstruction works)."} }, new [] { "IfcBuilding" }); yield return new PropertySetInfo("Pset_BuildingElementProxyCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcBuildingElementProxy", "IfcBuildingElementProxyType" }); yield return new PropertySetInfo("Pset_BuildingStoreyCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AboveGround", "IfcLogical") { Definition = "Indication whether this building storey is fully above ground (TRUE), or below ground (FALSE), or partially above and below ground (UNKNOWN) - as in sloped terrain."}, new SingleValuePropertyType("ElevationOfFFLRelative", "IfcLengthMeasure") { Definition = "Elevation of the top surface of the finished floor level given in elevation above the local zero height. If the level varies and there is no significantly more prominent elevation, then this property may be omitted. In case of any inconsistency with the geometric positioning of the top surface, the geometric representation takes precedence."}, new SingleValuePropertyType("ElevationOfSSLRelative", "IfcLengthMeasure") { Definition = "Elevation of the top surface of the structural slab level given in elevation above the local zero height. If the level varies and there is no significantly more prominent elevation, then this property may be omitted. In case of any inconsistency with the geometric positioning of the top surface, the geometric representation takes precedence."}, new SingleValuePropertyType("EntranceLevel", "IfcBoolean") { Definition = "Indication whether this building storey is an entrance level to the building (TRUE), or (FALSE) if otherwise."}, new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("LoadBearingCapacity", "IfcPlanarForceMeasure") { Definition = "Maximum load bearing capacity of the floor structure throughtout the storey as designed."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SprinklerProtection", "IfcBoolean") { Definition = "Indication whether this object is sprinkler protected (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SprinklerProtectionAutomatic", "IfcBoolean") { Definition = "Indication whether this object has an automatic sprinkler protection (TRUE) or not (FALSE).\nIt should only be given, if the property \"SprinklerProtection\" is set to TRUE."} }, new [] { "IfcBuildingStorey" }); yield return new PropertySetInfo("Pset_BuildingSystemCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcBuildingSystem" }); @@ -807,7 +807,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCableLadderSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("LadderConfiguration", "IfcText") { Definition = "Description of the configuration of the ladder structure used."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCableTraySegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasCover", "IfcBoolean") { Definition = "Indication of whether the cable tray has a cover (=TRUE) or not (= FALSE). By default, this value should be set to FALSE.."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCableTrunkingSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfCompartments", "IfcCountMeasure") { Definition = "The number of separate internal compartments within the trunking."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); - yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCatenaryWire", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CatenaryWireType", "IfcLabel") { Definition = "Indicate the type of Catenary wire."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("LayRatio", "IfcPositiveRatioMeasure") { Definition = "The ratio between lay length and the diameter of the single conductor."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MechanicalTension", "IfcForceMeasure") { Definition = "Nominal value of mechanical force applied to a flow segment."}, new SingleValuePropertyType("StrandingMethod", "IfcLabel") { Definition = "Specifies the method used to strand the cable. Stranding is the process where a particular number of stranding elements are joined together while winding them round a common axis."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); + yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCatenaryWire", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CatenaryWireType", "IfcLabel") { Definition = "Indicate the type of Catenary wire."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("LayRatio", "IfcPositiveRatioMeasure") { Definition = "The ratio between lay length and the diameter of the single conductor."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MechanicalTension", "IfcForceMeasure") { Definition = "Nominal value of mechanical force applied to a flow segment."}, new SingleValuePropertyType("StrandingMethod", "IfcLabel") { Definition = "Specifies the method used to strand the cable. Stranding is the process where a particular number of stranding elements are joined together while winding them round a common axis."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeConduitSegment", new IPropertyTypeInfo[] { new EnumerationPropertyType("ConduitShapeType", new [] { "CIRCULAR", "OVAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The shape of the conduit segment."}, new SingleValuePropertyType("IsRigid", "IfcBoolean") { Definition = "Indication of whether the conduit is rigid (= TRUE) or flexible (= FALSE)."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); yield return new PropertySetInfo("Pset_CableCarrierSegmentTypeDropper", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("IsAdjustable", "IfcBoolean") { Definition = "Indicates whether the element is adjustable or not."}, new SingleValuePropertyType("IsCurrentCarrying", "IfcBoolean") { Definition = "To indicate whether the current will go through the dropper."}, new SingleValuePropertyType("IsRigid", "IfcBoolean") { Definition = "Indication of whether the conduit is rigid (= TRUE) or flexible (= FALSE)."}, new SingleValuePropertyType("NominalLoad", "IfcForceMeasure") { Definition = "The nominal load that a component can support."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."} }, new [] { "IfcCableCarrierSegment", "IfcCableCarrierSegmentType" }); @@ -816,20 +816,20 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_CableFittingTypeFanout", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfTubes", "IfcCountMeasure") { Definition = "Number of fiber tubes."}, new SingleValuePropertyType("TubeDiameter", "IfcPositiveLengthMeasure") { Definition = "Indicates the diameter of the fiber tubes that are used in the fan out."} }, new [] { "IfcCableFitting", "IfcCableFittingType" }); yield return new PropertySetInfo("Pset_CableSegmentConnector", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectorAColour", "IfcLabel") { Definition = "Indicates the colour A- end of connector."}, new EnumerationPropertyType("ConnectorAGender", new [] { "FEMALE", "MALE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the gender of A-end connector."}, new SingleValuePropertyType("ConnectorAType", "IfcLabel") { Definition = "Indicates the type of A-end connector."}, new SingleValuePropertyType("ConnectorBColour", "IfcLabel") { Definition = "Indicates the colour B- end of connector."}, new EnumerationPropertyType("ConnectorBGender", new [] { "FEMALE", "MALE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the gender of B-end connector."}, new SingleValuePropertyType("ConnectorBType", "IfcLabel") { Definition = "Indicates the type of B-end connector."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentOccurenceFiberSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("InUse", "IfcBoolean") { Definition = "Indicates whether the fiber has been assigned to some specific use."} }, new [] { "IfcCableSegment" }); - yield return new PropertySetInfo("Pset_CableSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarrierStackNumber", "IfcInteger") { Definition = "Number of carrier segments (tray, ladder etc.) that are vertically stacked (vertical is measured as the z-axis of the local coordinate system of the carrier segment)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DesignAmbientTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The highest and lowest local ambient temperature likely to be encountered."}, new SingleValuePropertyType("DistanceBetweenParallelCircuits", "IfcLengthMeasure") { Definition = "Distance measured between parallel circuits."}, new SingleValuePropertyType("InstallationMethod", "IfcLabel") { Definition = "Method of installation of cable/conductor. Installation methods are typically defined by reference in standards such as IEC 60364-5-52, table 52A-1 or BS7671 Appendix 4 Table 4A1 etc. Selection of the value to be used should be determined from such a standard according to local usage."}, new EnumerationPropertyType("InstallationMethodFlagEnum", new [] { "BELOWCEILING", "INDUCT", "INSOIL", "ONWALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Special installation conditions relating to particular types of installation based on IEC60364-5-52:2001 reference installation methods C and D."}, new SingleValuePropertyType("IsHorizontalCable", "IfcBoolean") { Definition = "Indication of whether the cable occurrences are mounted horizontally (= TRUE) or vertically (= FALSE)."}, new SingleValuePropertyType("IsMountedFlatCable", "IfcBoolean") { Definition = "Indication of whether the cable occurrences are mounted flat (= TRUE) or in a trefoil pattern (= FALSE)."}, new SingleValuePropertyType("MaximumCableLength", "IfcLengthMeasure") { Definition = "Maximum cable length based on voltagedrop. NOTE: This value may also be specified as a constraint within an IFC model if required but is included within the property set at this stage pending implementation of the required capabilities within software applications."}, new EnumerationPropertyType("MountingMethod", new [] { "LADDER", "PERFORATEDTRAY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method of mounting cable segment occurrences on a cable carrier occurrence from which the method required can be selected. This is for the purpose of carrying out 'worst case' cable sizing calculations and may be a conceptual requirement rather than a statement of the physical occurrences of cable and carrier segments."}, new SingleValuePropertyType("NumberOfParallelCircuits", "IfcCountMeasure") { Definition = "Number of parallel circuits."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W]."}, new SingleValuePropertyType("SequentialCode", "IfcLabel") { Definition = "Indicates the sequential code of the cable or wire."}, new SingleValuePropertyType("SoilConductivity", "IfcThermalConductivityMeasure") { Definition = "Thermal conductivity of soil. Generally, within standards such as IEC 60364-5-52, table 52A-16, the resistivity of soil is required (measured in [SI] units of degK.m /W). This is the reciprocal of the conductivity value and needs to be calculated accordingly."}, new SingleValuePropertyType("UserCorrectionFactor", "IfcReal") { Definition = "An arbitrary correction factor that may be applied by the user."} }, new [] { "IfcCableSegment" }); - yield return new PropertySetInfo("Pset_CableSegmentTypeBusBarSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new EnumerationPropertyType("InsulationMethod", new [] { "LONGRODINSULATOR", "PININSULATOR", "POSTINSULATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method used to insulate."}, new SingleValuePropertyType("IsHorizontalBusbar", "IfcBoolean") { Definition = "Indication of whether the busbar occurrences are routed horizontally (= TRUE) or vertically (= FALSE)."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_CableSegmentTypeCableSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("FunctionReliable", "IfcBoolean") { Definition = "Element (such as cable, bus, core) maintain given properties/functions over a given (tested) time and conditions. According to IEC standard."}, new SingleValuePropertyType("HalogenProof", "IfcBoolean") { Definition = "Produces small amount of smoke and irritating Deaerator/Gas."}, new SingleValuePropertyType("HasProtectiveEarth", "IfcBoolean") { Definition = "Indicates whether the object has a protective earth connection (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("InsulationVoltage", "IfcElectricVoltageMeasure") { Definition = "The insulation voltage."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MaximumBendingRadius", "IfcPositiveLengthMeasure") { Definition = "The maximum bending radius that the cable could withstand."}, new SingleValuePropertyType("MaximumCurrent", "IfcElectricCurrentMeasure") { Definition = "The maximum allowed current that a device is certified to handle."}, new SingleValuePropertyType("MaximumOperatingTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The maximum temperature at which a cable or bus is certified to operate."}, new SingleValuePropertyType("MaximumShortCircuitTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The maximum short circuit temperature at which a cable or bus is certified to operate."}, new SingleValuePropertyType("NumberOfCores", "IfcCountMeasure") { Definition = "The number of cores."}, new SingleValuePropertyType("NumberOfWires", "IfcCountMeasure") { Definition = "The number of wires used in the element."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The range of allowed temperature that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ScreenDiameter", "IfcPositiveLengthMeasure") { Definition = "The diameter of the screen around an object (if present)."}, new SingleValuePropertyType("SelfExtinguishing60332_1", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.1."}, new SingleValuePropertyType("SelfExtinguishing60332_3", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.3."}, new SingleValuePropertyType("SpecialConstruction", "IfcLabel") { Definition = "Special construction capabilities like self-supporting, flat devidable cable or bus flat non devidable cable or bus supporting elements inside (steal, textile, concentric conductor). Note that materials used should be agreed between exchange participants before use."}, new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object"} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); + yield return new PropertySetInfo("Pset_CableSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarrierStackNumber", "IfcInteger") { Definition = "Number of carrier segments (tray, ladder etc.) that are vertically stacked (vertical is measured as the z-axis of the local coordinate system of the carrier segment)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DesignAmbientTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The highest and lowest local ambient temperature likely to be encountered."}, new SingleValuePropertyType("DistanceBetweenParallelCircuits", "IfcLengthMeasure") { Definition = "Distance measured between parallel circuits."}, new SingleValuePropertyType("InstallationMethod", "IfcLabel") { Definition = "Method of installation of cable/conductor. Installation methods are typically defined by reference in standards such as IEC 60364-5-52, table 52A-1 or BS7671 Appendix 4 Table 4A1 etc. Selection of the value to be used should be determined from such a standard according to local usage."}, new EnumerationPropertyType("InstallationMethodFlagEnum", new [] { "BELOWCEILING", "INDUCT", "INSOIL", "ONWALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Special installation conditions relating to particular types of installation based on IEC60364-5-52:2001 reference installation methods C and D."}, new SingleValuePropertyType("IsHorizontalCable", "IfcBoolean") { Definition = "Indication of whether the cable occurrences are mounted horizontally (= TRUE) or vertically (= FALSE)."}, new SingleValuePropertyType("IsMountedFlatCable", "IfcBoolean") { Definition = "Indication of whether the cable occurrences are mounted flat (= TRUE) or in a trefoil pattern (= FALSE)."}, new SingleValuePropertyType("MaximumCableLength", "IfcLengthMeasure") { Definition = "Maximum cable length based on voltagedrop. NOTE: This value may also be specified as a constraint within an IFC model if required but is included within the property set at this stage pending implementation of the required capabilities within software applications."}, new EnumerationPropertyType("MountingMethod", new [] { "LADDER", "PERFORATEDTRAY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method of mounting cable segment occurrences on a cable carrier occurrence from which the method required can be selected. This is for the purpose of carrying out 'worst case' cable sizing calculations and may be a conceptual requirement rather than a statement of the physical occurrences of cable and carrier segments."}, new SingleValuePropertyType("NumberOfParallelCircuits", "IfcCountMeasure") { Definition = "Number of parallel circuits."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W].\n\nTotal loss of power across this cable."}, new SingleValuePropertyType("SequentialCode", "IfcLabel") { Definition = "Indicates the sequential code of the cable or wire."}, new SingleValuePropertyType("SoilConductivity", "IfcThermalConductivityMeasure") { Definition = "Thermal conductivity of soil. Generally, within standards such as IEC 60364-5-52, table 52A-16, the resistivity of soil is required (measured in [SI] units of degK.m /W). This is the reciprocal of the conductivity value and needs to be calculated accordingly."}, new SingleValuePropertyType("UserCorrectionFactor", "IfcReal") { Definition = "An arbitrary correction factor that may be applied by the user."} }, new [] { "IfcCableSegment" }); + yield return new PropertySetInfo("Pset_CableSegmentTypeBusBarSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new EnumerationPropertyType("InsulationMethod", new [] { "LONGRODINSULATOR", "PININSULATOR", "POSTINSULATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method used to insulate."}, new SingleValuePropertyType("IsHorizontalBusbar", "IfcBoolean") { Definition = "Indication of whether the busbar occurrences are routed horizontally (= TRUE) or vertically (= FALSE)."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally.\n\nAllowable operation ambient air temperature range."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); + yield return new PropertySetInfo("Pset_CableSegmentTypeCableSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("FunctionReliable", "IfcBoolean") { Definition = "Element (such as cable, bus, core) maintain given properties/functions over a given (tested) time and conditions. According to IEC standard."}, new SingleValuePropertyType("HalogenProof", "IfcBoolean") { Definition = "Produces small amount of smoke and irritating Deaerator/Gas."}, new SingleValuePropertyType("HasProtectiveEarth", "IfcBoolean") { Definition = "Indicates whether the object has a protective earth connection (=TRUE) or not (= FALSE).\n\nOne core has protective earth marked insulation, Yellow/Green."}, new SingleValuePropertyType("InsulationVoltage", "IfcElectricVoltageMeasure") { Definition = "The insulation voltage.\n\nIt indicates the wire-to-ground (metal sheath) insulation voltage or the insulation voltage between the wires."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MaximumBendingRadius", "IfcPositiveLengthMeasure") { Definition = "The maximum bending radius that the cable could withstand."}, new SingleValuePropertyType("MaximumCurrent", "IfcElectricCurrentMeasure") { Definition = "The maximum allowed current that a device is certified to handle."}, new SingleValuePropertyType("MaximumOperatingTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The maximum temperature at which a cable or bus is certified to operate."}, new SingleValuePropertyType("MaximumShortCircuitTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The maximum short circuit temperature at which a cable or bus is certified to operate."}, new SingleValuePropertyType("NumberOfCores", "IfcCountMeasure") { Definition = "The number of cores."}, new SingleValuePropertyType("NumberOfWires", "IfcCountMeasure") { Definition = "The number of wires used in the element."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The range of allowed temperature that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ScreenDiameter", "IfcPositiveLengthMeasure") { Definition = "The diameter of the screen around an object (if present)."}, new SingleValuePropertyType("SelfExtinguishing60332_1", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.1."}, new SingleValuePropertyType("SelfExtinguishing60332_3", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.3."}, new SingleValuePropertyType("SpecialConstruction", "IfcLabel") { Definition = "Special construction capabilities like self-supporting, flat devidable cable or bus flat non devidable cable or bus supporting elements inside (steal, textile, concentric conductor). Note that materials used should be agreed between exchange participants before use."}, new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object\n\nWeight of cable kg/km."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_CableSegmentTypeConductorSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new EnumerationPropertyType("ConductorMaterial", new [] { "ALUMINIUM", "COPPER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of material from which the conductor is constructed."}, new EnumerationPropertyType("ConductorShape", new [] { "CIRCULARCONDUCTOR", "HELICALCONDUCTOR", "RECTANGULARCONDUCTOR", "SECTORCONDUCTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indication of the shape of the conductor."}, new EnumerationPropertyType("Construction", new [] { "FLEXIBLESTRANDEDCONDUCTOR", "SOLIDCONDUCTOR", "STRANDEDCONDUCTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Purpose of informing on how the vonductor is constructed (interwined or solid). I.e. Solid (IEV 461-01-06), stranded (IEV 461-01-07), solid-/finestranded(IEV 461-01-11) (not flexible/flexible)."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new EnumerationPropertyType("Function", new [] { "LINE", "NEUTRAL", "PROTECTIVEEARTH", "PROTECTIVEEARTHNEUTRAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of function for which the conductor is intended."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NumberOfCores", "IfcCountMeasure") { Definition = "The number of cores."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_CableSegmentTypeContactWire", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_CableSegmentTypeCoreSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CoreIdentifier", "IfcIdentifier") { Definition = "The core identification used Identifiers may be used such as by color (Black, Brown, Grey) or by number (1, 2, 3) or by IEC phase reference (L1, L2, L3) etc."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("FunctionReliable", "IfcBoolean") { Definition = "Element (such as cable, bus, core) maintain given properties/functions over a given (tested) time and conditions. According to IEC standard."}, new SingleValuePropertyType("HalogenProof", "IfcBoolean") { Definition = "Produces small amount of smoke and irritating Deaerator/Gas."}, new SingleValuePropertyType("LayRatio", "IfcPositiveRatioMeasure") { Definition = "The ratio between lay length and the diameter of the single conductor."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The range of allowed temperature that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ScreenDiameter", "IfcPositiveLengthMeasure") { Definition = "The diameter of the screen around an object (if present)."}, new SingleValuePropertyType("SelfExtinguishing60332_1", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.1."}, new SingleValuePropertyType("SelfExtinguishing60332_3", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.3."}, new EnumerationPropertyType("SheathColours", new [] { "BLACK", "BLUE", "BROWN", "GOLD", "GREEN", "GREENANDYELLOW", "GREY", "ORANGE", "PINK", "RED", "SILVER", "TURQUOISE", "VIOLET", "WHITE", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ), new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used."}, new SingleValuePropertyType("StrandingMethod", "IfcLabel") { Definition = "Specifies the method used to strand the cable. Stranding is the process where a particular number of stranding elements are joined together while winding them round a common axis."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object"}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); + yield return new PropertySetInfo("Pset_CableSegmentTypeConductorSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new EnumerationPropertyType("ConductorMaterial", new [] { "ALUMINIUM", "COPPER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of material from which the conductor is constructed."}, new EnumerationPropertyType("ConductorShape", new [] { "CIRCULARCONDUCTOR", "HELICALCONDUCTOR", "RECTANGULARCONDUCTOR", "SECTORCONDUCTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indication of the shape of the conductor."}, new EnumerationPropertyType("Construction", new [] { "FLEXIBLESTRANDEDCONDUCTOR", "SOLIDCONDUCTOR", "STRANDEDCONDUCTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Purpose of informing on how the vonductor is constructed (interwined or solid). I.e. Solid (IEV 461-01-06), stranded (IEV 461-01-07), solid-/finestranded(IEV 461-01-11) (not flexible/flexible)."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new EnumerationPropertyType("Function", new [] { "LINE", "NEUTRAL", "PROTECTIVEEARTH", "PROTECTIVEEARTHNEUTRAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of function for which the conductor is intended."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NumberOfCores", "IfcCountMeasure") { Definition = "The number of cores."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); + yield return new PropertySetInfo("Pset_CableSegmentTypeContactWire", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CrossSectionalArea", "IfcAreaMeasure") { Definition = "Cross section area of the phase(s) lead(s)."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); + yield return new PropertySetInfo("Pset_CableSegmentTypeCoreSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ACResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under AC."}, new SingleValuePropertyType("CoreIdentifier", "IfcIdentifier") { Definition = "The core identification used Identifiers may be used such as by color (Black, Brown, Grey) or by number (1, 2, 3) or by IEC phase reference (L1, L2, L3) etc."}, new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DCResistance", "IfcElectricResistanceMeasure") { Definition = "The resistance under direct current and 20 degrees centigrade."}, new SingleValuePropertyType("FunctionReliable", "IfcBoolean") { Definition = "Element (such as cable, bus, core) maintain given properties/functions over a given (tested) time and conditions. According to IEC standard."}, new SingleValuePropertyType("HalogenProof", "IfcBoolean") { Definition = "Produces small amount of smoke and irritating Deaerator/Gas."}, new SingleValuePropertyType("LayRatio", "IfcPositiveRatioMeasure") { Definition = "The ratio between lay length and the diameter of the single conductor."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("OverallDiameter", "IfcPositiveLengthMeasure") { Definition = "The overall diameter of a object.\n\nThe overall diameter of a core (maximum space used)."}, new SingleValuePropertyType("RatedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The range of allowed temperature that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ScreenDiameter", "IfcPositiveLengthMeasure") { Definition = "The diameter of the screen around an object (if present)."}, new SingleValuePropertyType("SelfExtinguishing60332_1", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.1."}, new SingleValuePropertyType("SelfExtinguishing60332_3", "IfcBoolean") { Definition = "Self Extinguishing cable/core according to IEC 60332.3."}, new EnumerationPropertyType("SheathColours", new [] { "BLACK", "BLUE", "BROWN", "GOLD", "GREEN", "GREENANDYELLOW", "GREY", "ORANGE", "PINK", "RED", "SILVER", "TURQUOISE", "VIOLET", "WHITE", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Colour of the core (derived from IEC 60757). Note that the combined color 'GreenAndYellow' shall be used only as Protective Earth (PE) conductors according to the requirements of IEC 60446."}, new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used."}, new SingleValuePropertyType("StrandingMethod", "IfcLabel") { Definition = "Specifies the method used to strand the cable. Stranding is the process where a particular number of stranding elements are joined together while winding them round a common axis."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object\n\nWeight of core kg/km."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeEarthingConductor", new IPropertyTypeInfo[] { new SingleValuePropertyType("ResistanceToGround", "IfcElectricResistanceMeasure") { Definition = "The resistance through earthing conductor to the ground. Real part of the impedance to earth [SOURCE IEC: 195-01-18]"} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeFiberSegment", new IPropertyTypeInfo[] { new EnumerationPropertyType("FiberColour", new [] { "AQUA", "BLACK", "BLUE", "BROWN", "GREEN", "ORANGE", "RED", "ROSE", "SLATE", "VIOLET", "WHITE", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the colour of a single fiber."}, new EnumerationPropertyType("FiberType", new [] { "BEND_INSENSITIVEFIBER", "CUTOFFSHIFTEDFIBER", "DISPERSIONSHIFTEDFIBER", "LOWWATERPEAKFIBER", "NON_ZERODISPERSIONSHIFTEDFIBER", "OM1", "OM2", "OM3", "OM4", "OM5", "STANDARDSINGLEMODEFIBER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of the single fiber."}, new SingleValuePropertyType("HasTightJacket", "IfcBoolean") { Definition = "Indicates whether the fiber has a tight jacket or not."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeFiberTubeSegment", new IPropertyTypeInfo[] { new EnumerationPropertyType("FiberTubeColour", new [] { "AQUA", "BLACK", "BLUE", "BROWN", "GREEN", "ORANGE", "RED", "ROSE", "SLATE", "VIOLET", "WHITE", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the colour of a single fiber tube."}, new SingleValuePropertyType("NumberOfFibers", "IfcCountMeasure") { Definition = "Indicates the number of fibers in the single tube or cable."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeOpticalCableSegment", new IPropertyTypeInfo[] { new EnumerationPropertyType("FiberMode", new [] { "MULTIMODE", "SINGLEMODE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the fiber mode."}, new SingleValuePropertyType("NumberOfFibers", "IfcCountMeasure") { Definition = "Indicates the number of fibers in the single tube or cable."}, new SingleValuePropertyType("NumberOfMultiModeFibers", "IfcCountMeasure") { Definition = "Total number of multi-mode fibers in the optical fiber cable."}, new SingleValuePropertyType("NumberOfSingleModeFibers", "IfcCountMeasure") { Definition = "Total number of single-mode fibers in the optical fiber cable."}, new SingleValuePropertyType("NumberOfTubes", "IfcCountMeasure") { Definition = "Number of fiber tubes."}, new EnumerationPropertyType("OpticalCableStructure", new [] { "BREAKOUT", "LOOSETUBE", "PATCHCORD", "PIGTAIL", "TIGHTBUFFERED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Distinguishes between different structures of an optical fiber cable."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeStitchWire", new IPropertyTypeInfo[] { new SingleValuePropertyType("MechanicalTension", "IfcForceMeasure") { Definition = "Nominal value of mechanical force applied to a flow segment."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("UltimateTensileStrength", "IfcForceMeasure") { Definition = "Indicates the maximum stress that a material or element can withstand before breaking while being stretched or pulled."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CableSegmentTypeWirePairSegment", new IPropertyTypeInfo[] { new SingleValuePropertyType("CharacteristicImpedance", "IfcElectricResistanceMeasure") { Definition = "A quantity defined for a mode of propagation at a given frequency in a specific uniform transmission line or uniform waveguide by one of the three following relations:\nZ1 = S/ |I|2\nZ2 = |U|2 / S\nZ3 = U / I\nwhere Z is the complex characteristic impedance, S the complex power and U and I are the values, usually complex, respectively of a voltage and a current conventionally defined for each type of mode by analogy with transmission line equations."}, new SingleValuePropertyType("ConductorDiameter", "IfcPositiveLengthMeasure") { Definition = "Indicates the conductor diameter. It is only used for twisted and untwisted wire pair."}, new SingleValuePropertyType("CoreConductorDiameter", "IfcPositiveLengthMeasure") { Definition = "Indicates the core conductor diameter. It is only used for coaxial wire pair."}, new SingleValuePropertyType("JacketColour", "IfcLabel") { Definition = "Indicates the colour of the cable or fitting jacket."}, new SingleValuePropertyType("ShieldConductorDiameter", "IfcPositiveLengthMeasure") { Definition = "Indicates the shielded conductor diameter. It is only used for coaxial wire pair."}, new EnumerationPropertyType("WirePairType", new [] { "COAXIAL", "TWISTED", "UNTWISTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of wire pair, i.e., twisted, untwisted or coaxial pair."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_CargoCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AdditionalProcessing", new [] { "INSPECTION", "ISOLATION", "NONE", "TARIFFS" } ) { Definition = "Any additional or special processing requirements on the associated cargo."}, new EnumerationPropertyType("ProcessDirection", new [] { "EXPORT", "IMPORT", "TRANSFER" } ) { Definition = "The direction of flow of the cargo within the process."}, new EnumerationPropertyType("ProcessItem", new [] { "BARREL", "CGT", "PASSENGER", "TEU", "TONNE", "VEHICLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of item (and its measurement method) being modelled within a process. This can be cargo, passengers or vehicles that pass through the system."} }, new [] { "IfcVehicle", "IfcVehicle", "IfcVehicleType", "IfcVehicleType" }); + yield return new PropertySetInfo("Pset_CargoCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AdditionalProcessing", new [] { "INSPECTION", "ISOLATION", "NONE", "TARIFFS" } ) { Definition = "Any additional or special processing requirements on the associated cargo."}, new EnumerationPropertyType("ProcessDirection", new [] { "EXPORT", "IMPORT", "TRANSFER" } ) { Definition = "The direction of flow of the cargo within the process."}, new EnumerationPropertyType("ProcessItem", new [] { "BARREL", "CGT", "PASSENGER", "TEU", "TONNE", "VEHICLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of item (and its measurement method) being modelled within a process. This can be cargo, passengers or vehicles that pass through the system."} }, new [] { "IfcVehicle", "IfcVehicleType" }); yield return new PropertySetInfo("Pset_CessBetweenRails", new IPropertyTypeInfo[] { new EnumerationPropertyType("CheckRailType", new [] { "TYPE_33C1", "TYPE_40C1", "TYPE_47C1", "TYPE_CR3_60U", "TYPE_R260", "TYPE_R320CR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the check rail. Check rail types enumerated in this property are defined based on EN 13674."}, new EnumerationPropertyType("JointRelativePosition", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the relative position of the joint, which lies in the left or right rail or in the middle, or in combination. The left rail is to the left as facing in the direction of increasing stationing values, and the right rail is to the right."}, new SingleValuePropertyType("LoadCapacity", "IfcForceMeasure") { Definition = "Indicates the highest permissible load capacity."}, new EnumerationPropertyType("UsagePurpose", new [] { "MAINTENANCE", "RESCUESERVICES", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The purpose of usage of the cess between rails, e.g. maintenance, rescue services."} }, new [] { "IfcSlab", "IfcSlabType" }); yield return new PropertySetInfo("Pset_ChillerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcChiller" }); yield return new PropertySetInfo("Pset_ChillerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ChillerCapacity", "IfcPowerMeasure") { Definition = "Nominal cooling capacity of chiller at standardized conditions as defined by the agency having jurisdiction."}, new SingleValuePropertyType("NominalCondensingTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Chiller condensing temperature."}, new SingleValuePropertyType("NominalEfficiency", "IfcPositiveRatioMeasure") { Definition = "Nominal object efficiency under nominal conditions."}, new SingleValuePropertyType("NominalEvaporatingTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Chiller evaporating temperature."}, new SingleValuePropertyType("NominalHeatRejectionRate", "IfcPowerMeasure") { Definition = "Sum of the refrigeration effect and the heat equivalent of the power input to the compressor."}, new SingleValuePropertyType("NominalPowerConsumption", "IfcPowerMeasure") { Definition = "Nominal total power consumption."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcChiller", "IfcChillerType" }); @@ -838,9 +838,9 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_CoaxialCable", new IPropertyTypeInfo[] { new SingleValuePropertyType("CharacteristicImpedance", "IfcElectricResistanceMeasure") { Definition = "A quantity defined for a mode of propagation at a given frequency in a specific uniform transmission line or uniform waveguide by one of the three following relations:\nZ1 = S/ |I|2\nZ2 = |U|2 / S\nZ3 = U / I\nwhere Z is the complex characteristic impedance, S the complex power and U and I are the values, usually complex, respectively of a voltage and a current conventionally defined for each type of mode by analogy with transmission line equations."}, new SingleValuePropertyType("CouplingLoss", "IfcNormalisedRatioMeasure") { Definition = "Indicates the coupling loss of a leaky coaxial cable (radiating cable)."}, new SingleValuePropertyType("MaximumTransmissionAttenuation", "IfcSoundPowerLevelMeasure") { Definition = "Indicates the Maximum transmission attenuation of feeder."}, new SingleValuePropertyType("NumberOfCoaxialPairs", "IfcCountMeasure") { Definition = "Indicates the total number of coaxial pairs in the coaxial cable."}, new SingleValuePropertyType("PropagationSpeedCoefficient", "IfcRatioMeasure") { Definition = "Indicates the propagation speed coefficient."}, new SingleValuePropertyType("RadiantFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the radiant frequency of the leaky coaxial cable (radiating cable)."}, new SingleValuePropertyType("TransmissionLoss", "IfcNormalisedRatioMeasure") { Definition = "Indicates the transmission loss of the leaky coaxial cable (radiating cable)."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_CoilOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasSoundAttenuation", "IfcBoolean") { Definition = "TRUE if the coil has sound attenuation, FALSE if it does not."} }, new [] { "IfcCoil" }); yield return new PropertySetInfo("Pset_CoilPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCoil" }); - yield return new PropertySetInfo("Pset_CoilTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new EnumerationPropertyType("CoilPlacement", new [] { "CEILING", "FLOOR", "UNIT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the placement of the coil.\nFLOOR indicates an under floor heater (if coil type is WATERHEATINGCOIL or ELECTRICHEATINGCOIL);\nCEILING indicates a cooling ceiling (if coil type is WATERCOOLINGCOIL);\nUNIT indicates that the coil is part of a cooling or heating unit, like cooled beam, etc."}, new SingleValuePropertyType("NominalLatentCapacity", "IfcPowerMeasure") { Definition = "Nominal latent capacity."}, new SingleValuePropertyType("NominalSensibleCapacity", "IfcPowerMeasure") { Definition = "Nominal sensible capacity."}, new SingleValuePropertyType("NominalUA", "IfcReal") { Definition = "Nominal UA value."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCoil", "IfcCoilType" }); + yield return new PropertySetInfo("Pset_CoilTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered.\n\nFor cases where there is no airflow across the coil (e.g. electric coil in a floor slab), then the value is zero."}, new EnumerationPropertyType("CoilPlacement", new [] { "CEILING", "FLOOR", "UNIT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the placement of the coil.\nFLOOR indicates an under floor heater (if coil type is WATERHEATINGCOIL or ELECTRICHEATINGCOIL);\nCEILING indicates a cooling ceiling (if coil type is WATERCOOLINGCOIL);\nUNIT indicates that the coil is part of a cooling or heating unit, like cooled beam, etc."}, new SingleValuePropertyType("NominalLatentCapacity", "IfcPowerMeasure") { Definition = "Nominal latent capacity."}, new SingleValuePropertyType("NominalSensibleCapacity", "IfcPowerMeasure") { Definition = "Nominal sensible capacity."}, new SingleValuePropertyType("NominalUA", "IfcReal") { Definition = "Nominal UA value."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally.\n\nAllowable operational air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCoil", "IfcCoilType" }); yield return new PropertySetInfo("Pset_CoilTypeHydronic", new IPropertyTypeInfo[] { new SingleValuePropertyType("BypassFactor", "IfcNormalisedRatioMeasure") { Definition = "Fraction of air that is bypassed by the coil (0-1)."}, new EnumerationPropertyType("CoilConnectionDirection", new [] { "LEFT", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Coil connection direction (facing into the air stream)."}, new EnumerationPropertyType("CoilCoolant", new [] { "BRINE", "GLYCOL", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The fluid used for heating or cooling used by the hydronic coil."}, new SingleValuePropertyType("CoilFaceArea", "IfcAreaMeasure") { Definition = "Coil face area in the direction against air the flow."}, new EnumerationPropertyType("CoilFluidArrangement", new [] { "CROSSCOUNTERFLOW", "CROSSFLOW", "CROSSPARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Fluid flow arrangement of the coil.CrossCounterFlow: Air and water flow enter in different directions.\nCrossFlow: Air and water flow are perpendicular.\nCrossParallelFlow: Air and water flow enter in same directions."}, new SingleValuePropertyType("FluidPressureRange", "IfcPressureMeasure") { Definition = "Allowable water working pressure range inside the tube."}, new SingleValuePropertyType("HeatExchangeSurfaceArea", "IfcAreaMeasure") { Definition = "Heat exchange surface area associated with U-value."}, new SingleValuePropertyType("PrimarySurfaceArea", "IfcAreaMeasure") { Definition = "Primary heat transfer surface area of the tubes and headers."}, new SingleValuePropertyType("SecondarySurfaceArea", "IfcAreaMeasure") { Definition = "Secondary heat transfer surface area created by fins."}, new SingleValuePropertyType("SensibleHeatRatio", "IfcNormalisedRatioMeasure") { Definition = "Air-side sensible heat ratio, or fraction of sensible heat transfer to the total heat transfer."}, new SingleValuePropertyType("WetCoilFraction", "IfcNormalisedRatioMeasure") { Definition = "Fraction of coil surface area that is wet (0-1)."} }, new [] { "IfcCoil", "IfcCoilType" }); - yield return new PropertySetInfo("Pset_ColumnCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcColumn", "IfcColumnType" }); + yield return new PropertySetInfo("Pset_ColumnCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis.\n\nRelative to the global X direction for all columns that are vertical in regard to the global coordinate system (Profile direction equals global X is Roll = 0.). For all non-vertical columns the following applies: Roll is relative to the global Z direction f(Profile direction of non-vertical columns that equals global Z is Roll = 0.)The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only.Note: new property in IFC4"}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcColumn", "IfcColumnType" }); yield return new PropertySetInfo("Pset_CommunicationsAppliancePHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCommunicationsAppliance" }); yield return new PropertySetInfo("Pset_CommunicationsApplianceTypeAntenna", new IPropertyTypeInfo[] { new SingleValuePropertyType("AntennaGain", "IfcRatioMeasure") { Definition = "Indicates the antenna gain, which is a ratio of the power transmitted by an antenna in a specific direction compared to an isotropic antenna."}, new EnumerationPropertyType("AntennaType", new [] { "CEILING", "PANEL", "YAGI", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of antenna."}, new EnumerationPropertyType("PolarizationMode", new [] { "DUALPOLARIZATION", "SINGLEPOLARIZATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the polarization mode of antenna."}, new EnumerationPropertyType("RadiationPattern", new [] { "DIRECTIONAL", "FANBEAM", "OMNIDIRECTIONAL", "PENCILBEAM", "SHAPEDBEAM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the radiation pattern of antenna."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_CommunicationsApplianceTypeAutomaton", new IPropertyTypeInfo[] { new EnumerationPropertyType("InputSignalType", new [] { "CURRENT", "VOLTAGE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of the input signal."}, new EnumerationPropertyType("OutputSignalType", new [] { "CURRENT", "VOLTAGE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of the output signal."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); @@ -856,27 +856,27 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_CommunicationsApplianceTypeTelephonyExchange", new IPropertyTypeInfo[] { new SingleValuePropertyType("UserCapacity", "IfcInteger") { Definition = "Indicates the user capacity of the device, defined as the maximum number of users that can be active at the same time."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_CommunicationsApplianceTypeTransportEquipment", new IPropertyTypeInfo[] { new SingleValuePropertyType("ElectricalCrossCapacity", "IfcLabel") { Definition = "Indicates the electrical cross capacity of the transport equipment."}, new SingleValuePropertyType("IsUpgradable", "IfcBoolean") { Definition = "Indicates whether the transport equipment can be upgraded or not."}, new SingleValuePropertyType("NumberOfSlots", "IfcCountMeasure") { Definition = "Indicates the number of slots."}, new EnumerationPropertyType("TransportEquipmentAssemblyType", new [] { "FIXEDCONFIGURATION", "MODULARCONFIGURATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of transport equipment assembly."}, new EnumerationPropertyType("TransportEquipmentType", new [] { "MPLS_TP", "OTN", "PDH", "SDH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of transport equipment."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_CompressorPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCompressor" }); - yield return new PropertySetInfo("Pset_CompressorTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CompressorSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Compressor speed."}, new SingleValuePropertyType("HasHotGasBypass", "IfcBoolean") { Definition = "Whether or not hot gas bypass is provided for the compressor. TRUE = Yes, FALSE = No."}, new SingleValuePropertyType("IdealCapacity", "IfcPowerMeasure") { Definition = "Compressor capacity under ideal conditions."}, new SingleValuePropertyType("IdealShaftPower", "IfcPowerMeasure") { Definition = "Compressor shaft power under ideal conditions."}, new SingleValuePropertyType("ImpellerDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of object - used to scale performance of geometrically similar objects."}, new SingleValuePropertyType("MaximumPartLoadRatio", "IfcPositiveRatioMeasure") { Definition = "Maximum part load ratio as a fraction of nominal capacity."}, new SingleValuePropertyType("MinimumPartLoadRatio", "IfcPositiveRatioMeasure") { Definition = "Minimum part load ratio as a fraction of nominal capacity."}, new SingleValuePropertyType("NominalCapacity", "IfcPowerMeasure") { Definition = "The total nominal or volumetric capacity of the object."}, new EnumerationPropertyType("PowerSource", new [] { "ENGINEDRIVEN", "GASTURBINE", "MOTORDRIVEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of power driving the compressor."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("RefrigerantClass", new [] { "AMMONIA", "CFC", "CO2", "H2O", "HCFC", "HFC", "HYDROCARBONS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Refrigerant class used by the object.\nCFC: Chlorofluorocarbons.\nHCFC: Hydrochlorofluorocarbons.\nHFC: Hydrofluorocarbons."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCompressor", "IfcCompressorType" }); + yield return new PropertySetInfo("Pset_CompressorTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CompressorSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Compressor speed."}, new SingleValuePropertyType("HasHotGasBypass", "IfcBoolean") { Definition = "Whether or not hot gas bypass is provided for the compressor. TRUE = Yes, FALSE = No."}, new SingleValuePropertyType("IdealCapacity", "IfcPowerMeasure") { Definition = "Compressor capacity under ideal conditions."}, new SingleValuePropertyType("IdealShaftPower", "IfcPowerMeasure") { Definition = "Compressor shaft power under ideal conditions."}, new SingleValuePropertyType("ImpellerDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of object - used to scale performance of geometrically similar objects."}, new SingleValuePropertyType("MaximumPartLoadRatio", "IfcPositiveRatioMeasure") { Definition = "Maximum part load ratio as a fraction of nominal capacity."}, new SingleValuePropertyType("MinimumPartLoadRatio", "IfcPositiveRatioMeasure") { Definition = "Minimum part load ratio as a fraction of nominal capacity."}, new SingleValuePropertyType("NominalCapacity", "IfcPowerMeasure") { Definition = "The total nominal or volumetric capacity of the object.\n\nCompressor nameplate capacity."}, new EnumerationPropertyType("PowerSource", new [] { "ENGINEDRIVEN", "GASTURBINE", "MOTORDRIVEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of power driving the compressor."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("RefrigerantClass", new [] { "AMMONIA", "CFC", "CO2", "H2O", "HCFC", "HFC", "HYDROCARBONS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Refrigerant class used by the object.\nCFC: Chlorofluorocarbons.\nHCFC: Hydrochlorofluorocarbons.\nHFC: Hydrofluorocarbons."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCompressor", "IfcCompressorType" }); yield return new PropertySetInfo("Pset_ConcreteElementGeneral", new IPropertyTypeInfo[] { new EnumerationPropertyType("AssemblyPlace", new [] { "FACTORY", "OFFSITE", "SITE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining where the assembly is intended to take place, either in a factory, other offsite location or on the building site."}, new EnumerationPropertyType("CastingMethod", new [] { "INSITU", "MIXED", "PRECAST", "PRINTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method of casting the concrete into its designed form."}, new SingleValuePropertyType("ConcreteCover", "IfcPositiveLengthMeasure") { Definition = "The protective concrete cover at the reinforcing bars according to local building regulations."}, new SingleValuePropertyType("ConcreteCoverAtLinks", "IfcPositiveLengthMeasure") { Definition = "The protective concrete cover at the reinforcement links according to local building regulations."}, new SingleValuePropertyType("ConcreteCoverAtMainBars", "IfcPositiveLengthMeasure") { Definition = "The protective concrete cover at the main reinforcing bars according to local building regulations."}, new SingleValuePropertyType("ConstructionToleranceClass", "IfcLabel") { Definition = "Classification designation of the on-site construction tolerances according to local standards."}, new SingleValuePropertyType("DimensionalAccuracyClass", "IfcLabel") { Definition = "Classification designation of the dimensional accuracy requirement according to local standards."}, new SingleValuePropertyType("ExposureClass", "IfcLabel") { Definition = "Classification of exposure to environmental conditions, usually specified in accordance with the concrete design code which is applied in the project."}, new SingleValuePropertyType("ReinforcementAreaRatio", "IfcAreaDensityMeasure") { Definition = "The required ratio of the effective area of the reinforcement to the effective area of the concrete At any section of a reinforced concrete structural element."}, new SingleValuePropertyType("ReinforcementStrengthClass", "IfcLabel") { Definition = "Classification of the reinforcement strength in accordance with the concrete design code which is applied in the project. The reinforcing strength class often combines strength and ductility."}, new SingleValuePropertyType("ReinforcementVolumeRatio", "IfcMassDensityMeasure") { Definition = "The required ratio of the effective mass of the reinforcement to the effective volume of the concrete of a reinforced concrete structural element."}, new SingleValuePropertyType("StrengthClass", "IfcLabel") { Definition = "Classification of the concrete strength in accordance with the concrete design code which is applied in the project."}, new SingleValuePropertyType("StructuralClass", "IfcLabel") { Definition = "The structural class defined for the concrete structure (e.g. '1')."} }, new [] { "IfcBeam", "IfcBuildingElementProxy", "IfcChimney", "IfcCivilElement", "IfcColumn", "IfcFooting", "IfcMember", "IfcPile", "IfcPlate", "IfcRailing", "IfcRampFlight", "IfcRamp", "IfcRoof", "IfcSlab", "IfcStairFlight", "IfcStair", "IfcWall", "IfcBeamType", "IfcBuildingElementProxyType", "IfcChimneyType", "IfcCivilElementType", "IfcColumnType", "IfcFootingType", "IfcMemberType", "IfcPileType", "IfcPlateType", "IfcRailingType", "IfcRampFlightType", "IfcRampType", "IfcRoofType", "IfcSlabType", "IfcStairFlightType", "IfcStairType", "IfcWallType" }); yield return new PropertySetInfo("Pset_CondenserPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCondenser" }); yield return new PropertySetInfo("Pset_CondenserTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ExternalSurfaceArea", "IfcAreaMeasure") { Definition = "External surface area (both primary and secondary area)."}, new SingleValuePropertyType("InternalRefrigerantVolume", "IfcVolumeMeasure") { Definition = "Internal volume of object (refrigerant side)."}, new SingleValuePropertyType("InternalSurfaceArea", "IfcAreaMeasure") { Definition = "Internal surface area."}, new SingleValuePropertyType("InternalWaterVolume", "IfcVolumeMeasure") { Definition = "Internal volume of object (water side)."}, new SingleValuePropertyType("NominalHeatTransferArea", "IfcAreaMeasure") { Definition = "Nominal heat transfer surface area associated with nominal overall heat transfer coefficient."}, new SingleValuePropertyType("NominalHeatTransferCoefficient", "IfcThermalTransmittanceMeasure") { Definition = "Nominal overall heat transfer coefficient associated with nominal heat transfer area."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("RefrigerantClass", new [] { "AMMONIA", "CFC", "CO2", "H2O", "HCFC", "HFC", "HYDROCARBONS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Refrigerant class used by the object.\nCFC: Chlorofluorocarbons.\nHCFC: Hydrochlorofluorocarbons.\nHFC: Hydrofluorocarbons."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcCondenser", "IfcCondenserType" }); yield return new PropertySetInfo("Pset_Condition", new IPropertyTypeInfo[] { new SingleValuePropertyType("AssessmentCondition", "IfcLabel") { Definition = "The overall condition of a product based on an assessment of the contributions to the overall condition made by the various criteria considered. The meanings given to the values of assessed condition should be agreed and documented by local agreements. For instance, is overall condition measured on a scale of 1 - 10 or by assigning names such as Good, OK, Poor."}, new SingleValuePropertyType("AssessmentDate", "IfcDate") { Definition = "Date on which the overall condition is assessed"}, new SingleValuePropertyType("AssessmentDescription", "IfcText") { Definition = "Qualitative description of the condition."}, new SingleValuePropertyType("AssessmentFrequency", "IfcTimeMeasure") { Definition = "Indicates how often the equipment should be assessed, to have a clear estimation on its working state, based on which the maintenance staff can decide whether it requires maintenance or requires to be updated or replaced."}, new SingleValuePropertyType("AssessmentType", "IfcLabel") { Definition = "Category of latest condition assessment report of the asset."}, new SingleValuePropertyType("LastAssessmentReport", "IfcLabel") { Definition = "Reference to latest condition (state of health) report."}, new SingleValuePropertyType("NextAssessmentDate", "IfcDate") { Definition = "Date of next condition inspection"} }, new [] { "IfcAsset", "IfcElement", "IfcSystem", "IfcElementType" }); yield return new PropertySetInfo("Pset_ConstructionAdministration", new IPropertyTypeInfo[] { new SingleValuePropertyType("ProcurementMethod", "IfcLabel") { Definition = "The method by which an IfcProductType/IfcProduct is acquired and installed. The value provided shall be one of the following four character acronyms: “CFCI” (meaning Contractor Furnished Contractor Installed), “OFCI” (meaning Owner Furnished Contractor Installed), or “OFOI” (meaning Owner Furnished Owner Installed)."}, new SingleValuePropertyType("SpecificationSectionNumber", "IfcLabel") { Definition = "A reference number to an external contract technical specification section describing either (a) minimum performance requirements of a given IfcProductType/IfcProduct or (b) a preselection for a specific IfcProductType/IfcProduct made for this project."}, new SingleValuePropertyType("SubmittalIdentifer", "IfcLabel") { Definition = "The reference number to an external construction administration submittal used by the construction contractor and/or subcontractor to verify that the referenced IfcProductType/IfcProduct selection conforms with the requirements found in the referenced SpecificationSectionNumber."} }, new [] { "IfcElement", "IfcElementType" }); - yield return new PropertySetInfo("Pset_ConstructionOccurance", new IPropertyTypeInfo[] { new SingleValuePropertyType("AssetIdentifier", "IfcLabel") { Definition = "A unique identification assigned to an asset that enables its differentiation from other assets.NOTE The asset identifier is unique within the asset register. It differs from the globally unique id assigned to the instance of an entity populating a database."}, new SingleValuePropertyType("InstallationDate", "IfcDate") { Definition = "Date on which the element is installed."}, new SingleValuePropertyType("ModelNumber", "IfcLabel") { Definition = "The model number and/or unit designator assigned by the manufacturer of the manufactured item."}, new SingleValuePropertyType("TagNumber", "IfcLabel") { Definition = "Tag number."} }, new [] { "IfcElement" }); + yield return new PropertySetInfo("Pset_ConstructionOccurence", new IPropertyTypeInfo[] { new SingleValuePropertyType("AssetIdentifier", "IfcLabel") { Definition = "A unique identification assigned to an asset that enables its differentiation from other assets.NOTE The asset identifier is unique within the asset register. It differs from the globally unique id assigned to the instance of an entity populating a database."}, new SingleValuePropertyType("InstallationDate", "IfcDate") { Definition = "Date on which the element is installed."}, new SingleValuePropertyType("ModelNumber", "IfcLabel") { Definition = "The model number and/or unit designator assigned by the manufacturer of the manufactured item."}, new SingleValuePropertyType("TagNumber", "IfcLabel") { Definition = "Tag number."} }, new [] { "IfcElement" }); yield return new PropertySetInfo("Pset_ConstructionResource", new IPropertyTypeInfo[] { }, new [] { "IfcConstructionResource", "IfcConstructionResourceType" }); yield return new PropertySetInfo("Pset_ControllerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcController" }); yield return new PropertySetInfo("Pset_ControllerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_ControllerTypeFloating", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "ABSOLUTE", "ACCUMULATOR", "AVERAGE", "BINARY", "CONSTANT", "DERIVATIVE", "DIVIDE", "HYSTERESIS", "INPUT", "INTEGRAL", "INVERSE", "LOWERLIMITCONTROL", "MAXIMUM", "MINIMUM", "MODIFIER", "OUTPUT", "PRODUCT", "PULSECONVERTER", "REPORT", "RUNNINGAVERAGE", "SPLIT", "SUBTRACT", "SUM", "UPPERLIMITCONTROL", "VARIABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports"}, new SingleValuePropertyType("Range", "IfcReal") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("SignalFactor", "IfcReal") { Definition = "Factor multiplied onto offset signal."}, new SingleValuePropertyType("SignalOffset", "IfcReal") { Definition = "Offset constant added to modified signal."}, new SingleValuePropertyType("SignalTime", "IfcTimeMeasure") { Definition = "Time factor used for integral and running average controllers."}, new SingleValuePropertyType("Value", "IfcReal") { Definition = "The expected range and default value."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_ControllerTypeMultiPosition", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "INPUT", "OUTPUT", "VARIABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports"}, new SingleValuePropertyType("IntegerRange", "IfcInteger") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("Value", "IfcInteger") { Definition = "The expected range and default value."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_ControllerTypeProgrammable", new IPropertyTypeInfo[] { new EnumerationPropertyType("Application", new [] { "BOILERCONTROLLER", "CONSTANTLIGHTCONTROLLER", "DISCHARGEAIRCONTROLLER", "FANCOILUNITCONTROLLER", "LIGHTINGPANELCONTROLLER", "MODEMCONTROLLER", "OCCUPANCYCONTROLLER", "PARTITIONWALLCONTROLLER", "PUMPCONTROLLER", "REALTIMEBASEDSCHEDULER", "REALTIMEKEEPER", "ROOFTOPUNITCONTROLLER", "SCENECONTROLLER", "SPACECONFORTCONTROLLER", "SUNBLINDCONTROLLER", "TELEPHONEDIRECTORY", "UNITVENTILATORCONTROLLER", "VAV", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Humidifier application.Fixed: Humidifier installed in a ducted flow distribution system.\nPortable: Humidifier is not installed in a ducted flow distribution system."}, new EnumerationPropertyType("ControlType", new [] { "PRIMARY", "SECONDARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports"}, new SingleValuePropertyType("FirmwareVersion", "IfcLabel") { Definition = "Indicates version of device firmware according to device manufacturer."}, new SingleValuePropertyType("SoftwareVersion", "IfcLabel") { Definition = "Indicates version of application software according to systems integrator."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_ControllerTypeProportional", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "PROPORTIONAL", "PROPORTIONALINTEGRAL", "PROPORTIONALINTEGRALDERIVATIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports"}, new SingleValuePropertyType("DerivativeConstant", "IfcReal") { Definition = "The derivative gain factor of the controller (usually referred to as Kd). Asserted where ControlType is PROPORTIONALINTEGRALDERIVATIVE."}, new SingleValuePropertyType("IntegralConstant", "IfcReal") { Definition = "The integral gain factor of the controller (usually referred to as Ki). Asserted where ControlType is PROPORTIONALINTEGRAL or PROPORTIONALINTEGRALDERIVATIVE."}, new SingleValuePropertyType("ProportionalConstant", "IfcReal") { Definition = "The proportional gain factor of the controller (usually referred to as Kp)."}, new SingleValuePropertyType("Range", "IfcReal") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("SignalTimeDecrease", "IfcTimeMeasure") { Definition = "Time factor used for exponential decrease."}, new SingleValuePropertyType("SignalTimeIncrease", "IfcTimeMeasure") { Definition = "Time factor used for exponential increase."}, new SingleValuePropertyType("Value", "IfcReal") { Definition = "The expected range and default value."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_ControllerTypeTwoPosition", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "AND", "AVERAGE", "CALENDAR", "INPUT", "LOWERBANDSWITCH", "LOWERLIMITSWITCH", "NOT", "OR", "OUTPUT", "UPPERBANDSWITCH", "UPPERLIMITSWITCH", "VARIABLE", "XOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports"}, new SingleValuePropertyType("Polarity", "IfcBoolean") { Definition = "True indicates normal polarity; False indicates reverse polarity."}, new SingleValuePropertyType("Value", "IfcBoolean") { Definition = "The expected range and default value."} }, new [] { "IfcController", "IfcControllerType" }); + yield return new PropertySetInfo("Pset_ControllerTypeFloating", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "ABSOLUTE", "ACCUMULATOR", "AVERAGE", "BINARY", "CONSTANT", "DERIVATIVE", "DIVIDE", "HYSTERESIS", "INPUT", "INTEGRAL", "INVERSE", "LOWERLIMITCONTROL", "MAXIMUM", "MINIMUM", "MODIFIER", "OUTPUT", "PRODUCT", "PULSECONVERTER", "REPORT", "RUNNINGAVERAGE", "SPLIT", "SUBTRACT", "SUM", "UPPERLIMITCONTROL", "VARIABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports\n\nCONSTANT: No inputs; SignalOffset is written to the output value.\nMODIFIER: Single analog input is read, added to SignalOffset, multiplied by SignalFactor, and written to the output value.\nABSOLUTE: Single analog input is read and absolute value is written to the output value.\nINVERSE: Single analog input is read, 1.0 is divided by the input value and written to the output value.\nHYSTERISIS: Single analog input is read, delayed according to SignalTime, and written to the output value.\nRUNNINGAVERAGE: Single analog input is read, averaged over SignalTime, and written to the output value.\nDERIVATIVE: Single analog input is read and the rate of change during the SignalTime is written to the output value.\nINTEGRAL: Single analog input is read and the average value during the SignalTime is written to the output value.\nBINARY: Single binary input is read and SignalOffset is written to the output value if True.\nACCUMULATOR: Single binary input is read, and for each pulse the SignalOffset is added to the accumulator, and while the accumulator is greater than the SignalFactor, the accumulator is decremented by SignalFactor and the integer result is incremented by one.\nPULSECONVERTER: Single integer input is read, and for each increment the SignalMultiplier is added and written to the output value.\nSUM: Two analog inputs are read, added, and written to the output value.\nSUBTRACT: Two analog inputs are read, subtracted, and written to the output value.\nPRODUCT: Two analog inputs are read, multiplied, and written to the output value.\nDIVIDE: Two analog inputs are read, divided, and written to the output value.\nAVERAGE: Two analog inputs are read and the average is written to the output value.\nMAXIMUM: Two analog inputs are read and the maximum is written to the output value.\nMINIMUM: Two analog inputs are read and the minimum is written to the output value..\nINPUT: Controller element is a dedicated input.\nOUTPUT: Controller element is a dedicated output.\nVARIABLE: Controller element is an in-memory variable."}, new SingleValuePropertyType("Range", "IfcReal") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("SignalFactor", "IfcReal") { Definition = "Factor multiplied onto offset signal."}, new SingleValuePropertyType("SignalOffset", "IfcReal") { Definition = "Offset constant added to modified signal."}, new SingleValuePropertyType("SignalTime", "IfcTimeMeasure") { Definition = "Time factor used for integral and running average controllers."}, new SingleValuePropertyType("Value", "IfcReal") { Definition = "The expected range and default value.\n\nThe expected range and default value. While the property data type is IfcReal (to support all cases including when the units are unknown), a unit may optionally be provided to indicate the measure and unit. The LowerLimitValue and UpperLimitValue must fall within the physical Range and may be used to determine extents when charting Pset_ControllerPHistory.Value."} }, new [] { "IfcController", "IfcControllerType" }); + yield return new PropertySetInfo("Pset_ControllerTypeMultiPosition", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "INPUT", "OUTPUT", "VARIABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports\n\nINPUT: Controller element is a dedicated input.\nOUTPUT: Controller element is a dedicated output.\nVARIABLE: Controller element is an in-memory variable."}, new SingleValuePropertyType("IntegerRange", "IfcInteger") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("Value", "IfcInteger") { Definition = "The expected range and default value.\n\nThe expected range and default value. The LowerLimitValue and UpperLimitValue must fall within the physical Range."} }, new [] { "IfcController", "IfcControllerType" }); + yield return new PropertySetInfo("Pset_ControllerTypeProgrammable", new IPropertyTypeInfo[] { new EnumerationPropertyType("Application", new [] { "BOILERCONTROLLER", "CONSTANTLIGHTCONTROLLER", "DISCHARGEAIRCONTROLLER", "FANCOILUNITCONTROLLER", "LIGHTINGPANELCONTROLLER", "MODEMCONTROLLER", "OCCUPANCYCONTROLLER", "PARTITIONWALLCONTROLLER", "PUMPCONTROLLER", "REALTIMEBASEDSCHEDULER", "REALTIMEKEEPER", "ROOFTOPUNITCONTROLLER", "SCENECONTROLLER", "SPACECONFORTCONTROLLER", "SUNBLINDCONTROLLER", "TELEPHONEDIRECTORY", "UNITVENTILATORCONTROLLER", "VAV", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates application of controller."}, new EnumerationPropertyType("ControlType", new [] { "PRIMARY", "SECONDARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports\n\nPRIMARY: Controller has built-in communication interface for PC connection, may manage secondary controllers.\nSECONDARY: Controller communicates with primary controller and its own managed devices."}, new SingleValuePropertyType("FirmwareVersion", "IfcLabel") { Definition = "Indicates version of device firmware according to device manufacturer."}, new SingleValuePropertyType("SoftwareVersion", "IfcLabel") { Definition = "Indicates version of application software according to systems integrator."} }, new [] { "IfcController", "IfcControllerType" }); + yield return new PropertySetInfo("Pset_ControllerTypeProportional", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "PROPORTIONAL", "PROPORTIONALINTEGRAL", "PROPORTIONALINTEGRALDERIVATIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports\n\nPROPORTIONAL: Output is proportional to the control error. The gain of a proportional control (Kp) will have the effect of reducing the rise time and reducing , but never eliminating, the steady-state error of the variable controlled.\nPROPORTIONALINTEGRAL: Part of the output is proportional to the control error and part is proportional to the time integral of the control error. Adding the gain of an integral control (Ki) will have the effect of eliminating the steady-state error of the variable controlled, but it may make the transient response worse.\nPROPORTIONALINTEGRALDERIVATIVE: Part of the output is proportional to the control error, part is proportional to the time integral of the control error and part is proportional to the time derivative of the control error. Adding the gain of a derivative control (Kd) will have the effect of increasing the stability of the system, reducing the overshoot, and improving the transient response of the variable controlled."}, new SingleValuePropertyType("DerivativeConstant", "IfcReal") { Definition = "The derivative gain factor of the controller (usually referred to as Kd). Asserted where ControlType is PROPORTIONALINTEGRALDERIVATIVE."}, new SingleValuePropertyType("IntegralConstant", "IfcReal") { Definition = "The integral gain factor of the controller (usually referred to as Ki). Asserted where ControlType is PROPORTIONALINTEGRAL or PROPORTIONALINTEGRALDERIVATIVE."}, new SingleValuePropertyType("ProportionalConstant", "IfcReal") { Definition = "The proportional gain factor of the controller (usually referred to as Kp)."}, new SingleValuePropertyType("Range", "IfcReal") { Definition = "The physical range of values supported by the device."}, new SingleValuePropertyType("SignalTimeDecrease", "IfcTimeMeasure") { Definition = "Time factor used for exponential decrease."}, new SingleValuePropertyType("SignalTimeIncrease", "IfcTimeMeasure") { Definition = "Time factor used for exponential increase."}, new SingleValuePropertyType("Value", "IfcReal") { Definition = "The expected range and default value.\n\nThe expected range and default value. While the property data type is IfcReal (to support all cases including when the units are unknown), a unit may optionally be provided to indicate the measure and unit."} }, new [] { "IfcController", "IfcControllerType" }); + yield return new PropertySetInfo("Pset_ControllerTypeTwoPosition", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlType", new [] { "AND", "AVERAGE", "CALENDAR", "INPUT", "LOWERBANDSWITCH", "LOWERLIMITSWITCH", "NOT", "OR", "OUTPUT", "UPPERBANDSWITCH", "UPPERLIMITSWITCH", "VARIABLE", "XOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type controller, signal modification effected and applicable ports\n\nLOWERLIMITSWITCH: Single analog input is read and if less than Value.LowerBound then True is written to the output value.\nUPPERLIMITSWITCH: Single analog input is read and if more than Value.UpperBound then True is written to the output value.\nLOWERBANDSWITCH: Single analog input is read and if less than Value.LowerBound+BandWidth then True is written to the output value.\nUPPERBANDSWITCH: Single analog input is read and if more than Value.UpperBound-BandWidth then True is written to the output value.\nNOT: Single binary input is read and the opposite value is written to the output value.\nAND: Two binary inputs are read and if both are True then True is written to the output value.\nOR: Two binary inputs are read and if either is True then True is written to the output value.\nXOR: Two binary inputs are read and if one is true then True is written to the output value.\nCALENDAR: No inputs; the current time is compared with an IfcWorkCalendar to which the IfcController is assigned and True is written if active.\nINPUT: Controller element is a dedicated input.\nOUTPUT: Controller element is a dedicated output.\nVARIABLE: Controller element is an in-memory variable."}, new SingleValuePropertyType("Polarity", "IfcBoolean") { Definition = "True indicates normal polarity; False indicates reverse polarity."}, new SingleValuePropertyType("Value", "IfcBoolean") { Definition = "The expected range and default value.\n\nThe default value such as normally-closed or normally-open."} }, new [] { "IfcController", "IfcControllerType" }); yield return new PropertySetInfo("Pset_CooledBeamPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCooledBeam" }); yield return new PropertySetInfo("Pset_CooledBeamPHistoryActive", new IPropertyTypeInfo[] { }, new [] { "IfcCooledBeam" }); - yield return new PropertySetInfo("Pset_CooledBeamTypeActive", new IPropertyTypeInfo[] { new EnumerationPropertyType("AirFlowConfiguration", new [] { "BIDIRECTIONAL", "UNIDIRECTIONALLEFT", "UNIDIRECTIONALRIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Air flow configuration type of cooled beam."}, new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new EnumerationPropertyType("SupplyAirConnectionType", new [] { "LEFT", "RIGHT", "STRAIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The manner in which the pipe connection is made to the cooled beam."} }, new [] { "IfcCooledBeam", "IfcCooledBeamType" }); - yield return new PropertySetInfo("Pset_CooledBeamTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoilLength", "IfcPositiveLengthMeasure") { Definition = "Length of coil."}, new SingleValuePropertyType("CoilWidth", "IfcPositiveLengthMeasure") { Definition = "Width of coil."}, new SingleValuePropertyType("FinishColour", "IfcLabel"), new EnumerationPropertyType("IntegratedLightingType", new [] { "DIRECT", "DIRECTANDINDIRECT", "INDIRECT", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Integrated lighting in cooled beam."}, new SingleValuePropertyType("IsFreeHanging", "IfcBoolean") { Definition = "Is it free hanging type (not mounted in a false ceiling)?"}, new SingleValuePropertyType("NominalCoolingCapacity", "IfcPowerMeasure") { Definition = "Nominal cooling capacity."}, new SingleValuePropertyType("NominalHeatingCapacity", "IfcPowerMeasure") { Definition = "Nominal heating capacity."}, new SingleValuePropertyType("NominalReturnWaterTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal return water temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalReturnWaterTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal return water temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalSupplyWaterTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal supply water temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSupplyWaterTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal supply water temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalSurroundingHumidityCooling", "IfcNormalisedRatioMeasure") { Definition = "Nominal surrounding humidity (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSurroundingTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal surrounding temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSurroundingTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal surrounding temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalWaterFlowCooling", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal water flow (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalWaterFlowHeating", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal water flow (refers to nominal heating capacity)."}, new EnumerationPropertyType("PipeConnection", new [] { "LEFT", "RIGHT", "STRAIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The manner in which the pipe connection is made to the cooled beam."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("WaterFlowControlSystemType", new [] { "2WAYVALVE", "3WAYVALVE", "NONE", "ONOFFVALVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Factory fitted waterflow control system."}, new SingleValuePropertyType("WaterPressureRange", "IfcPressureMeasure") { Definition = "Allowable water circuit working pressure range."} }, new [] { "IfcCooledBeam", "IfcCooledBeamType" }); + yield return new PropertySetInfo("Pset_CooledBeamTypeActive", new IPropertyTypeInfo[] { new EnumerationPropertyType("AirFlowConfiguration", new [] { "BIDIRECTIONAL", "UNIDIRECTIONALLEFT", "UNIDIRECTIONALRIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Air flow configuration type of cooled beam."}, new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nDuct connection diameter."}, new EnumerationPropertyType("SupplyAirConnectionType", new [] { "LEFT", "RIGHT", "STRAIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The manner in which the pipe connection is made to the cooled beam."} }, new [] { "IfcCooledBeam", "IfcCooledBeamType" }); + yield return new PropertySetInfo("Pset_CooledBeamTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoilLength", "IfcPositiveLengthMeasure") { Definition = "Length of coil."}, new SingleValuePropertyType("CoilWidth", "IfcPositiveLengthMeasure") { Definition = "Width of coil."}, new SingleValuePropertyType("FinishColour", "IfcLabel") { Definition = "The finish colour of the object."}, new EnumerationPropertyType("IntegratedLightingType", new [] { "DIRECT", "DIRECTANDINDIRECT", "INDIRECT", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Integrated lighting in cooled beam."}, new SingleValuePropertyType("IsFreeHanging", "IfcBoolean") { Definition = "Is it free hanging type (not mounted in a false ceiling)?"}, new SingleValuePropertyType("NominalCoolingCapacity", "IfcPowerMeasure") { Definition = "Nominal cooling capacity."}, new SingleValuePropertyType("NominalHeatingCapacity", "IfcPowerMeasure") { Definition = "Nominal heating capacity."}, new SingleValuePropertyType("NominalReturnWaterTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal return water temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalReturnWaterTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal return water temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalSupplyWaterTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal supply water temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSupplyWaterTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal supply water temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalSurroundingHumidityCooling", "IfcNormalisedRatioMeasure") { Definition = "Nominal surrounding humidity (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSurroundingTemperatureCooling", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal surrounding temperature (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalSurroundingTemperatureHeating", "IfcThermodynamicTemperatureMeasure") { Definition = "Nominal surrounding temperature (refers to nominal heating capacity)."}, new SingleValuePropertyType("NominalWaterFlowCooling", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal water flow (refers to nominal cooling capacity)."}, new SingleValuePropertyType("NominalWaterFlowHeating", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal water flow (refers to nominal heating capacity)."}, new EnumerationPropertyType("PipeConnection", new [] { "LEFT", "RIGHT", "STRAIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The manner in which the pipe connection is made to the cooled beam."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("WaterFlowControlSystemType", new [] { "2WAYVALVE", "3WAYVALVE", "NONE", "ONOFFVALVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Factory fitted waterflow control system."}, new SingleValuePropertyType("WaterPressureRange", "IfcPressureMeasure") { Definition = "Allowable water circuit working pressure range."} }, new [] { "IfcCooledBeam", "IfcCooledBeamType" }); yield return new PropertySetInfo("Pset_CoolingTowerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCoolingTower" }); - yield return new PropertySetInfo("Pset_CoolingTowerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AmbientDesignDryBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ambient design dry bulb temperature used for selecting the cooling tower."}, new SingleValuePropertyType("AmbientDesignWetBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ambient design wet bulb temperature used for selecting the cooling tower."}, new SingleValuePropertyType("BasinReserveVolume", "IfcVolumeMeasure") { Definition = "Volume between operating and overflow levels in cooling tower basin."}, new EnumerationPropertyType("CapacityControl", new [] { "BYPASSVALVECONTROL", "DAMPERSCONTROL", "FANCYCLING", "MULTIPLESERIESPUMPS", "TWOSPEEDFAN", "TWOSPEEDPUMP", "VARIABLESPEEDFAN", "VARIABLESPEEDPUMP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "FanCycling: Fan is cycled on and off to control duty.\nTwoSpeedFan: Fan is switched between low and high speed to control duty.\nVariableSpeedFan: Fan speed is varied to control duty.\nDampersControl: Dampers modulate the air flow to control duty.\nBypassValveControl: Bypass valve modulates the water flow to control duty.\nMultipleSeriesPumps: Turn on/off multiple series pump to control duty.\nTwoSpeedPump: Switch between high/low pump speed to control duty.\nVariableSpeedPump: vary pump speed to control duty."}, new EnumerationPropertyType("CircuitType", new [] { "CLOSEDCIRCUITDRY", "CLOSEDCIRCUITDRYWET", "CLOSEDCIRCUITWET", "OPENCIRCUIT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "OpenCircuit: Exposes water directly to the cooling atmosphere.\nCloseCircuit: The fluid is separated from the atmosphere by a heat exchanger.\nWet: The air stream or the heat exchange surface is evaporatively cooled.\nDry: No evaporation into the air stream.\nDryWet: A combination of a dry tower and a wet tower."}, new EnumerationPropertyType("ControlStrategy", new [] { "FIXEDEXITINGWATERTEMP", "WETBULBTEMPRESET", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "FixedExitingWaterTemp: The capacity is controlled to maintain a fixed exiting water temperature.\nWetBulbTempReset: The set-point is reset based on the wet-bulb temperature."}, new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "CounterFlow: Air and water flow enter in different directions.\nCrossFlow: Air and water flow are perpendicular.\nParallelFlow: air and water flow enter in same directions."}, new SingleValuePropertyType("LiftElevationDifference", "IfcPositiveLengthMeasure") { Definition = "Elevation difference between cooling tower sump and the top of the tower."}, new SingleValuePropertyType("NominalCapacity", "IfcPowerMeasure") { Definition = "The total nominal or volumetric capacity of the object."}, new SingleValuePropertyType("NumberOfCells", "IfcCountMeasure") { Definition = "Number of cells in one cooling tower unit."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("SprayType", new [] { "FILMTYPEFILL", "SPLASHTYPEFILL", "SPRAYFILLED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "SprayFilled: Water is sprayed into airflow.\nSplashTypeFill: water cascades over successive rows of splash bars.\nFilmTypeFill: water flows in a thin layer over closely spaced sheets."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."} }, new [] { "IfcCoolingTower", "IfcCoolingTowerType" }); + yield return new PropertySetInfo("Pset_CoolingTowerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AmbientDesignDryBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ambient design dry bulb temperature used for selecting the cooling tower."}, new SingleValuePropertyType("AmbientDesignWetBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ambient design wet bulb temperature used for selecting the cooling tower."}, new SingleValuePropertyType("BasinReserveVolume", "IfcVolumeMeasure") { Definition = "Volume between operating and overflow levels in cooling tower basin."}, new EnumerationPropertyType("CapacityControl", new [] { "BYPASSVALVECONTROL", "DAMPERSCONTROL", "FANCYCLING", "MULTIPLESERIESPUMPS", "TWOSPEEDFAN", "TWOSPEEDPUMP", "VARIABLESPEEDFAN", "VARIABLESPEEDPUMP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "FanCycling: Fan is cycled on and off to control duty.\nTwoSpeedFan: Fan is switched between low and high speed to control duty.\nVariableSpeedFan: Fan speed is varied to control duty.\nDampersControl: Dampers modulate the air flow to control duty.\nBypassValveControl: Bypass valve modulates the water flow to control duty.\nMultipleSeriesPumps: Turn on/off multiple series pump to control duty.\nTwoSpeedPump: Switch between high/low pump speed to control duty.\nVariableSpeedPump: vary pump speed to control duty."}, new EnumerationPropertyType("CircuitType", new [] { "CLOSEDCIRCUITDRY", "CLOSEDCIRCUITDRYWET", "CLOSEDCIRCUITWET", "OPENCIRCUIT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "OpenCircuit: Exposes water directly to the cooling atmosphere.\nCloseCircuit: The fluid is separated from the atmosphere by a heat exchanger.\nWet: The air stream or the heat exchange surface is evaporatively cooled.\nDry: No evaporation into the air stream.\nDryWet: A combination of a dry tower and a wet tower."}, new EnumerationPropertyType("ControlStrategy", new [] { "FIXEDEXITINGWATERTEMP", "WETBULBTEMPRESET", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "FixedExitingWaterTemp: The capacity is controlled to maintain a fixed exiting water temperature.\nWetBulbTempReset: The set-point is reset based on the wet-bulb temperature."}, new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the basic flow arrangements for the heat exchanger or cooler tower:COUNTERFLOW: Air and water flow enter in different directions.\nCROSSFLOW: Air and water flow are perpendicular.\nPARALLELFLOW: Air and water flow enter in same directions.\nMULTIPASS: Multipass flow heat exchanger arrangement. \nOTHER: Other type of heat exchanger flow arrangement not defined above."}, new SingleValuePropertyType("LiftElevationDifference", "IfcPositiveLengthMeasure") { Definition = "Elevation difference between cooling tower sump and the top of the tower."}, new SingleValuePropertyType("NominalCapacity", "IfcPowerMeasure") { Definition = "The total nominal or volumetric capacity of the object.\n\nNominal cooling tower capacity in terms of heat transfer rate of the cooling tower between air stream and water stream at nominal conditions."}, new SingleValuePropertyType("NumberOfCells", "IfcCountMeasure") { Definition = "Number of cells in one cooling tower unit."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("SprayType", new [] { "FILMTYPEFILL", "SPLASHTYPEFILL", "SPRAYFILLED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "SprayFilled: Water is sprayed into airflow.\nSplashTypeFill: water cascades over successive rows of splash bars.\nFilmTypeFill: water flows in a thin layer over closely spaced sheets."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."} }, new [] { "IfcCoolingTower", "IfcCoolingTowerType" }); yield return new PropertySetInfo("Pset_CourseApplicationConditions", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApplicationTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Indicates the ambient temperature at which the course is applied"}, new SingleValuePropertyType("WeatherConditions", "IfcText") { Definition = "Indicates the weather conditions during the application of the course"} }, new [] { "IfcCourse", "IfcCourseType" }); yield return new PropertySetInfo("Pset_CourseCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcCourse", "IfcCourseType" }); yield return new PropertySetInfo("Pset_CoveringCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("Combustible", "IfcBoolean") { Definition = "Indication whether the object is made from combustible material (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Finish", "IfcText") { Definition = "Description of the (surface) finish of the object for informational purposes."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("FlammabilityRating", "IfcLabel") { Definition = "Flammability Rating for this object.\nIt is given according to the national building code that governs the rating of flammability for materials."}, new SingleValuePropertyType("FragilityRating", "IfcLabel") { Definition = "Indication on the fragility of the covering (e.g., under fire conditions). It is given according to the national building code that might provide a classification for fragility."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("SurfaceSpreadOfFlame", "IfcLabel") { Definition = "Indication on how the flames spread around the surface,\nIt is given according to the national building code that governs the fire behaviour for materials."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcCovering", "IfcCoveringType" }); @@ -886,7 +886,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_CurtainWallCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("Combustible", "IfcBoolean") { Definition = "Indication whether the object is made from combustible material (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("SurfaceSpreadOfFlame", "IfcLabel") { Definition = "Indication on how the flames spread around the surface,\nIt is given according to the national building code that governs the fire behaviour for materials."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcCurtainWall", "IfcCurtainWallType" }); yield return new PropertySetInfo("Pset_DamperOccurrence", new IPropertyTypeInfo[] { new EnumerationPropertyType("SizingMethod", new [] { "EXACT", "NOMINAL", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies whether the damper is sized nominally or with exact measurements:NOMINAL: Nominal sizing method.\nEXACT: Exact sizing method."} }, new [] { "IfcDamper" }); yield return new PropertySetInfo("Pset_DamperPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcDamper" }); - yield return new PropertySetInfo("Pset_DamperTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("BladeAction", new [] { "FOLDINGCURTAIN", "OPPOSED", "PARALLEL", "SINGLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade action."}, new EnumerationPropertyType("BladeEdge", new [] { "CRIMPED", "UNCRIMPED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade edge."}, new EnumerationPropertyType("BladeShape", new [] { "EXTRUDEDAIRFOIL", "FABRICATEDAIRFOIL", "FLAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade shape. Flat means triple V-groove."}, new SingleValuePropertyType("BladeThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the damper blade."}, new SingleValuePropertyType("CloseOffRating", "IfcPressureMeasure") { Definition = "Close off rating."}, new SingleValuePropertyType("FaceArea", "IfcAreaMeasure") { Definition = "Face area open to the airstream."}, new SingleValuePropertyType("FrameDepth", "IfcPositiveLengthMeasure") { Definition = "The length (or depth) of the damper frame."}, new SingleValuePropertyType("FrameThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the damper frame material."}, new SingleValuePropertyType("FrameType", "IfcLabel") { Definition = "The type of frame used by the damper (e.g., Standard, Single Flange, Single Reversed Flange, Double Flange, etc.)."}, new SingleValuePropertyType("LeakageFullyClosed", "IfcVolumetricFlowRateMeasure") { Definition = "Leakage when fully closed."}, new SingleValuePropertyType("MaximumAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum allowable air flow rate."}, new SingleValuePropertyType("MaximumWorkingPressure", "IfcPressureMeasure") { Definition = "Maximum pressure that the object is manufactured to withstand."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NumberofBlades", "IfcInteger") { Definition = "Number of blades."}, new SingleValuePropertyType("OpenPressureDrop", "IfcPressureMeasure") { Definition = "Total pressure drop across damper."}, new EnumerationPropertyType("Operation", new [] { "AUTOMATIC", "MANUAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The operational mechanism for the damper operation."}, new EnumerationPropertyType("Orientation", new [] { "HORIZONTAL", "VERTICAL", "VERTICALORHORIZONTAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The intended orientation for the damper as specified by the manufacturer."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("TemperatureRating", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature rating."} }, new [] { "IfcDamper", "IfcDamperType" }); + yield return new PropertySetInfo("Pset_DamperTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("BladeAction", new [] { "FOLDINGCURTAIN", "OPPOSED", "PARALLEL", "SINGLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade action."}, new EnumerationPropertyType("BladeEdge", new [] { "CRIMPED", "UNCRIMPED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade edge."}, new EnumerationPropertyType("BladeShape", new [] { "EXTRUDEDAIRFOIL", "FABRICATEDAIRFOIL", "FLAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Blade shape. Flat means triple V-groove."}, new SingleValuePropertyType("BladeThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the damper blade."}, new SingleValuePropertyType("CloseOffRating", "IfcPressureMeasure") { Definition = "Close off rating."}, new SingleValuePropertyType("FaceArea", "IfcAreaMeasure") { Definition = "Face area open to the airstream."}, new SingleValuePropertyType("FrameDepth", "IfcPositiveLengthMeasure") { Definition = "The length (or depth) of the frame.\n\nFor a damper, it is the length (or depth) of the damper frame."}, new SingleValuePropertyType("FrameThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the frame.\n\nFor a damper, it is the thickness of the damper frame material."}, new SingleValuePropertyType("FrameType", "IfcLabel") { Definition = "The type of frame used by the damper (e.g., Standard, Single Flange, Single Reversed Flange, Double Flange, etc.)."}, new SingleValuePropertyType("LeakageFullyClosed", "IfcVolumetricFlowRateMeasure") { Definition = "Leakage when fully closed."}, new SingleValuePropertyType("MaximumAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum allowable air flow rate."}, new SingleValuePropertyType("MaximumWorkingPressure", "IfcPressureMeasure") { Definition = "Maximum pressure that the object is manufactured to withstand."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NumberofBlades", "IfcInteger") { Definition = "Number of blades."}, new SingleValuePropertyType("OpenPressureDrop", "IfcPressureMeasure") { Definition = "Total pressure drop across damper."}, new EnumerationPropertyType("Operation", new [] { "AUTOMATIC", "MANUAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The operational mechanism for the damper operation."}, new EnumerationPropertyType("Orientation", new [] { "HORIZONTAL", "VERTICAL", "VERTICALORHORIZONTAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The intended orientation for the damper as specified by the manufacturer."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("TemperatureRating", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature rating."} }, new [] { "IfcDamper", "IfcDamperType" }); yield return new PropertySetInfo("Pset_DamperTypeControlDamper", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControlDamperOperation", new [] { "EXPONENTIAL", "LINEAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The inherent characteristic of the control damper operation."}, new SingleValuePropertyType("TorqueRange", "IfcTorqueMeasure") { Definition = "Torque range: minimum operational torque to maximum allowable torque."} }, new [] { "IfcDamper", "IfcDamperType" }); yield return new PropertySetInfo("Pset_DamperTypeFireDamper", new IPropertyTypeInfo[] { new EnumerationPropertyType("ActuationType", new [] { "GRAVITY", "SPRING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the different types of dampers."}, new EnumerationPropertyType("ClosureRatingEnum", new [] { "DYNAMIC", "STATIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the closure rating for the damper."}, new SingleValuePropertyType("FireResistanceRating", "IfcLabel") { Definition = "Measure of the fire resistance rating in hours (e.g., 1.5 hours, 2 hours, etc.)."}, new SingleValuePropertyType("FusibleLinkTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature that the fusible link melts."} }, new [] { "IfcDamper", "IfcDamperType" }); yield return new PropertySetInfo("Pset_DamperTypeFireSmokeDamper", new IPropertyTypeInfo[] { new EnumerationPropertyType("ActuationType", new [] { "GRAVITY", "SPRING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the different types of dampers."}, new EnumerationPropertyType("ClosureRatingEnum", new [] { "DYNAMIC", "STATIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the closure rating for the damper."}, new SingleValuePropertyType("DamperControlType", "IfcLabel") { Definition = "The type of control used to operate the damper (e.g., Open/Closed Indicator, Resettable Temperature Sensor, Temperature Override, etc.)."}, new SingleValuePropertyType("FireResistanceRating", "IfcLabel") { Definition = "Measure of the fire resistance rating in hours (e.g., 1.5 hours, 2 hours, etc.)."}, new SingleValuePropertyType("FusibleLinkTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature that the fusible link melts."} }, new [] { "IfcDamper", "IfcDamperType" }); @@ -901,7 +901,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_DiscreteAccessoryStandardFixingPlate", new IPropertyTypeInfo[] { new SingleValuePropertyType("StandardFixingPlateDepth", "IfcPositiveLengthMeasure") { Definition = "The depth of the standard fixing plate."}, new SingleValuePropertyType("StandardFixingPlateThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the standard fixing plate."}, new SingleValuePropertyType("StandardFixingPlateWidth", "IfcPositiveLengthMeasure") { Definition = "The width of the standard fixing plate."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeBracket", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsInsulated", "IfcBoolean") { Definition = "Indicates whether the element is insulated or not."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeCableArranger", new IPropertyTypeInfo[] { new EnumerationPropertyType("CableArrangerPosition", new [] { "FRONTSIDE", "HORIZONTAL", "REARSIDE", "VERTICAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the directional position of the cable arranger: vertical, horizontal, front or rear. It is relative to the element (usually a cabinet) that the cable arranger is affiliated."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); - yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeInsulator", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: bending strength."}, new SingleValuePropertyType("BreakdownVoltageTolerance", "IfcElectricVoltageMeasure") { Definition = "Nominal value of the spark gap breakdown voltage tolerance."}, new SingleValuePropertyType("CreepageDistance", "IfcPositiveLengthMeasure") { Definition = "Shortest distance or the sum of the shortest distances along the surface on an insulator between two conductive parts which normally have the operating voltage between them. (IEV ref 471-01-04)"}, new SingleValuePropertyType("InstallationMethod", "IfcLabel") { Definition = "Method of installation of cable/conductor. Installation methods are typically defined by reference in standards such as IEC 60364-5-52, table 52A-1 or BS7671 Appendix 4 Table 4A1 etc. Selection of the value to be used should be determined from such a standard according to local usage."}, new EnumerationPropertyType("InsulationMethod", new [] { "LONGRODINSULATOR", "PININSULATOR", "POSTINSULATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method used to insulate."}, new SingleValuePropertyType("InsulationVoltage", "IfcElectricVoltageMeasure") { Definition = "The insulation voltage."}, new SingleValuePropertyType("LightningPeakVoltage", "IfcElectricVoltageMeasure") { Definition = "The peak lightning voltage that the insulator could withstand."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("RatedCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that a device is designed to handle."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RMSWithstandVoltage", "IfcElectricVoltageMeasure") { Definition = "Rms value of sinusoidal power frequency voltage that the insulation of the given equipment can withstand during tests made under specified conditions and for a specified duration. (IEV ref 614-03-22)"}, new SingleValuePropertyType("Voltage", "IfcElectricVoltageMeasure") { Definition = "The actual voltage and operable range."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); + yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeInsulator", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Bending strength."}, new SingleValuePropertyType("BreakdownVoltageTolerance", "IfcElectricVoltageMeasure") { Definition = "Nominal value of the spark gap breakdown voltage tolerance."}, new SingleValuePropertyType("CreepageDistance", "IfcPositiveLengthMeasure") { Definition = "Shortest distance or the sum of the shortest distances along the surface on an insulator between two conductive parts which normally have the operating voltage between them. (IEV ref 471-01-04)"}, new SingleValuePropertyType("InstallationMethod", "IfcLabel") { Definition = "Method of installation of cable/conductor. Installation methods are typically defined by reference in standards such as IEC 60364-5-52, table 52A-1 or BS7671 Appendix 4 Table 4A1 etc. Selection of the value to be used should be determined from such a standard according to local usage."}, new EnumerationPropertyType("InsulationMethod", new [] { "LONGRODINSULATOR", "PININSULATOR", "POSTINSULATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method used to insulate."}, new SingleValuePropertyType("InsulationVoltage", "IfcElectricVoltageMeasure") { Definition = "The insulation voltage.\n\nThe max voltage for normal insulation operation."}, new SingleValuePropertyType("LightningPeakVoltage", "IfcElectricVoltageMeasure") { Definition = "The peak lightning voltage that the insulator could withstand."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("RatedCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that a device is designed to handle."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("RMSWithstandVoltage", "IfcElectricVoltageMeasure") { Definition = "Rms value of sinusoidal power frequency voltage that the insulation of the given equipment can withstand during tests made under specified conditions and for a specified duration. (IEV ref 614-03-22)"}, new SingleValuePropertyType("Voltage", "IfcElectricVoltageMeasure") { Definition = "The actual voltage and operable range."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeLock", new IPropertyTypeInfo[] { new SingleValuePropertyType("RequiredClosureSpacing", "IfcPositiveLengthMeasure") { Definition = "Required length of the closure spacing."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeRailBrace", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsTemporary", "IfcBoolean") { Definition = "Indicates if the installation of the element is temporary or not."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_DiscreteAccessoryTypeRailLubrication", new IPropertyTypeInfo[] { new EnumerationPropertyType("LubricationPowerSupplyType", new [] { "ELECTRIC", "PHOTOVOLTAIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of power supply method used by the rail lubrication."}, new EnumerationPropertyType("LubricationSystemType", new [] { "ACTIVE_LUBRICATION", "PASSIVE_LUBRICATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Design and type of lubricating system e.g. active, passive."}, new SingleValuePropertyType("MaximumNoiseEmissions", "IfcSoundPowerLevelMeasure") { Definition = "Maximum noise emissions limit at this location."}, new EnumerationPropertyType("PositionInTrack", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the relative position of the element in track, which lies to the left or right as facing in the direction of increasing stationing values."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); @@ -914,8 +914,8 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_DistributionBoardTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcElectricDistributionBoard", "IfcElectricDistributionBoardType" }); yield return new PropertySetInfo("Pset_DistributionBoardTypeDispatchingBoard", new IPropertyTypeInfo[] { new EnumerationPropertyType("DispatchingBoardType", new [] { "CENTER", "STATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of dispatching board."} }, new [] { "IfcDistributionBoard", "IfcDistributionBoardType" }); yield return new PropertySetInfo("Pset_DistributionBoardTypeDistributionFrame", new IPropertyTypeInfo[] { new SingleValuePropertyType("PortCapacity", "IfcInteger") { Definition = "Indicates the number of ports in the passive device that can be used to interconnect cables."} }, new [] { "IfcDistributionBoard", "IfcDistributionBoardType" }); - yield return new PropertySetInfo("Pset_DistributionChamberElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); - yield return new PropertySetInfo("Pset_DistributionChamberElementTypeFormedDuct", new IPropertyTypeInfo[] { new SingleValuePropertyType("AccessCoverLoadRating", "IfcText") { Definition = "The load rating of the access cover (which may be a value or an alphanumerically defined class rating)."}, new SingleValuePropertyType("BaseThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the base construction, assumed to be constructed at a single thickness."}, new SingleValuePropertyType("CableDuctOccupancyRatio", "IfcNormalisedRatioMeasure") { Definition = "Indicates the ratio between the number of cables in the duct and the maximum number of cables that the duct can contain."}, new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth."}, new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width."}, new SingleValuePropertyType("WallThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the wall construction.\nNOTE: It is assumed that walls will be constructed at a single thickness."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); + yield return new PropertySetInfo("Pset_DistributionChamberElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead.\n\nE.g. 'WWS/VS1/400/001', which indicates the occurrence belongs to system WWS, subsystems VSI/400, and has the component number 001."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); + yield return new PropertySetInfo("Pset_DistributionChamberElementTypeFormedDuct", new IPropertyTypeInfo[] { new SingleValuePropertyType("AccessCoverLoadRating", "IfcText") { Definition = "The load rating of the access cover (which may be a value or an alphanumerically defined class rating)."}, new SingleValuePropertyType("BaseThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the base construction, assumed to be constructed at a single thickness."}, new SingleValuePropertyType("CableDuctOccupancyRatio", "IfcNormalisedRatioMeasure") { Definition = "Indicates the ratio between the number of cables in the duct and the maximum number of cables that the duct can contain."}, new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth.\n\nIt indicates the formed space in the duct."}, new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width.\n\nIt indicates the formed space in the duct."}, new SingleValuePropertyType("WallThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the wall construction.\nNOTE: It is assumed that walls will be constructed at a single thickness."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); yield return new PropertySetInfo("Pset_DistributionChamberElementTypeInspectionChamber", new IPropertyTypeInfo[] { new SingleValuePropertyType("AccessCoverLoadRating", "IfcText") { Definition = "The load rating of the access cover (which may be a value or an alphanumerically defined class rating)."}, new SingleValuePropertyType("AccessLengthOrRadius", "IfcPositiveLengthMeasure") { Definition = "The length of the chamber access cover or, where the plan shape of the cover is circular, the radius."}, new SingleValuePropertyType("AccessWidth", "IfcPositiveLengthMeasure") { Definition = "The width of the chamber access cover where the plan shape of the cover is not circular."}, new SingleValuePropertyType("BaseThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the base construction, assumed to be constructed at a single thickness."}, new SingleValuePropertyType("ChamberLengthOrRadius", "IfcPositiveLengthMeasure") { Definition = "Length or, in the event of the shape being circular in plan, the radius of the chamber."}, new SingleValuePropertyType("ChamberWidth", "IfcPositiveLengthMeasure") { Definition = "Width, in the event of the shape being non circular in plan."}, new SingleValuePropertyType("InspectionChamberInvertLevel", "IfcLengthMeasure") { Definition = "Level of the lowest part of the cross section as measured from ground level."}, new SingleValuePropertyType("SoffitLevel", "IfcLengthMeasure") { Definition = "Level of the highest internal part of the cross section as measured from ground level."}, new SingleValuePropertyType("WallThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the wall construction.\nNOTE: It is assumed that walls will be constructed at a single thickness."}, new SingleValuePropertyType("WithBackdrop", "IfcBoolean") { Definition = "Indicates whether the chamber has a backdrop or tumbling bay (TRUE) or not (FALSE)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); yield return new PropertySetInfo("Pset_DistributionChamberElementTypeInspectionPit", new IPropertyTypeInfo[] { new SingleValuePropertyType("Depth", "IfcPositiveLengthMeasure") { Definition = "The depth of the object."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("Width", "IfcPositiveLengthMeasure") { Definition = "The width of the object. Only given, if the object has constant thickness (prismatic)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); yield return new PropertySetInfo("Pset_DistributionChamberElementTypeManhole", new IPropertyTypeInfo[] { new SingleValuePropertyType("AccessCoverLoadRating", "IfcText") { Definition = "The load rating of the access cover (which may be a value or an alphanumerically defined class rating)."}, new SingleValuePropertyType("AccessLengthOrRadius", "IfcPositiveLengthMeasure") { Definition = "The length of the chamber access cover or, where the plan shape of the cover is circular, the radius."}, new SingleValuePropertyType("AccessWidth", "IfcPositiveLengthMeasure") { Definition = "The width of the chamber access cover where the plan shape of the cover is not circular."}, new SingleValuePropertyType("BaseThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the base construction, assumed to be constructed at a single thickness."}, new SingleValuePropertyType("HasSteps", "IfcBoolean") { Definition = "Indicates whether the chamber has steps (TRUE) or not (FALSE)."}, new SingleValuePropertyType("InvertLevel", "IfcLengthMeasure") { Definition = "Level of the lowest part of the cross section as measured from ground level."}, new SingleValuePropertyType("IsAccessibleOnFoot", "IfcBoolean") { Definition = "Indicates whether the element is accessible on foot (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsLocked", "IfcBoolean") { Definition = "Indicates whether the element is locked (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsShallow", "IfcBoolean") { Definition = "Indicates whether the chamber has been designed as being shallow (TRUE) or deep (FALSE)."}, new SingleValuePropertyType("NumberOfCableEntries", "IfcCountMeasure") { Definition = "Indicates the number of cable entries in the manhole."}, new SingleValuePropertyType("NumberOfManholeCovers", "IfcCountMeasure") { Definition = "Indicates the number of manhole covers."}, new SingleValuePropertyType("SoffitLevel", "IfcLengthMeasure") { Definition = "Level of the highest internal part of the cross section as measured from ground level."}, new EnumerationPropertyType("TypeOfShaft", new [] { "DIVERSIONSHAFT", "FLUSHINGCHAMBER", "GATESHAFT", "GULLY", "INSPECTIONCHAMBER", "PUMPSHAFT", "ROOFWATERSHAFT", "SHAFTWITHCHECKVALVE", "SLURRYCOLLECTOR", "SOAKAWAY", "WELL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Additional information on the purpose of the shaft."}, new SingleValuePropertyType("WallThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the wall construction.\nNOTE: It is assumed that walls will be constructed at a single thickness."}, new SingleValuePropertyType("WithBackdrop", "IfcBoolean") { Definition = "Indicates whether the chamber has a backdrop or tumbling bay (TRUE) or not (FALSE)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); @@ -923,29 +923,31 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_DistributionChamberElementTypeSump", new IPropertyTypeInfo[] { new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("SumpInvertLevel", "IfcPositiveLengthMeasure") { Definition = "The lowest point in the cross section of the sump."}, new SingleValuePropertyType("Width", "IfcPositiveLengthMeasure") { Definition = "The width of the object. Only given, if the object has constant thickness (prismatic)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); yield return new PropertySetInfo("Pset_DistributionChamberElementTypeTrench", new IPropertyTypeInfo[] { new SingleValuePropertyType("Depth", "IfcPositiveLengthMeasure") { Definition = "The depth of the object."}, new SingleValuePropertyType("InvertLevel", "IfcLengthMeasure") { Definition = "Level of the lowest part of the cross section as measured from ground level."}, new SingleValuePropertyType("Width", "IfcPositiveLengthMeasure") { Definition = "The width of the object. Only given, if the object has constant thickness (prismatic)."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); yield return new PropertySetInfo("Pset_DistributionChamberElementTypeValveChamber", new IPropertyTypeInfo[] { new SingleValuePropertyType("BaseThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the base construction, assumed to be constructed at a single thickness."}, new SingleValuePropertyType("ChamberLengthOrRadius", "IfcPositiveLengthMeasure") { Definition = "Length or, in the event of the shape being circular in plan, the radius of the chamber."}, new SingleValuePropertyType("ChamberWidth", "IfcPositiveLengthMeasure") { Definition = "Width, in the event of the shape being non circular in plan."}, new SingleValuePropertyType("WallThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the wall construction.\nNOTE: It is assumed that walls will be constructed at a single thickness."} }, new [] { "IfcDistributionChamberElement", "IfcDistributionChamberElementType" }); - yield return new PropertySetInfo("Pset_DistributionPortCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ColourCode", "IfcLabel"), new SingleValuePropertyType("PortNumber", "IfcInteger") { Definition = "The port index for logically ordering the port within the containing element or element type."} }, new [] { "IfcDistributionPort" }); + yield return new PropertySetInfo("Pset_DistributionPortCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ColourCode", "IfcLabel") { Definition = "Name of a colour for identifying the connector, if applicable."}, new SingleValuePropertyType("PortNumber", "IfcInteger") { Definition = "The port index for logically ordering the port within the containing element or element type."} }, new [] { "IfcDistributionPort" }); yield return new PropertySetInfo("Pset_DistributionPortPHistoryCable", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionPort" }); yield return new PropertySetInfo("Pset_DistributionPortPHistoryDuct", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionPort" }); yield return new PropertySetInfo("Pset_DistributionPortPHistoryPipe", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionPort" }); yield return new PropertySetInfo("Pset_DistributionPortTypeCable", new IPropertyTypeInfo[] { new EnumerationPropertyType("ConductorFunction", new [] { "NEUTRAL", "PHASE_L1", "PHASE_L2", "PHASE_L3", "PROTECTIVEEARTH", "PROTECTIVEEARTHNEUTRAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates function of the conductors to which the load is connected. Where L1, L2 and L3 represent the phase lines according to IEC 60446 notation (sometimes phase lines may be referenced by color [Red, Blue, Yellow] or by number [1, 2, 3] etc). Protective Earth is sometimes also known as CPC or common protective conductor. Note that for an electrical device, a set of line conductor functions may be applied."}, new EnumerationPropertyType("ConnectionGender", new [] { "FEMALE", "MALE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The physical connection gender."}, new SingleValuePropertyType("ConnectionSubtype", "IfcLabel") { Definition = "The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M\nDIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P\nDSub: DA15, DB25, DC37, DD50, DE9, DE15\nEIAJ: RC5720\nHDMI: A, B, C\nRADIO: IEEE802.11g, IEEE802.11n\nRJ: 4P4C, 6P2C, 8P8C\nSOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40\nTRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini"}, new SingleValuePropertyType("Current", "IfcElectricCurrentMeasure") { Definition = "The actual current and operable range."}, new SingleValuePropertyType("CurrentContent3rdHarmonic", "IfcPositiveRatioMeasure") { Definition = "The ratio between the third harmonic current and the phase current."}, new EnumerationPropertyType("ElectricalConnectionType", new [] { "ACPLUG", "COAXIAL", "CRIMP", "DCPLUG", "DIN", "DSUB", "DVI", "EIAJ", "HDMI", "RADIO", "RCA", "RJ", "SOCKET", "TRS", "USB", "XLR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The physical port connection:ACPLUG: AC plug\nDCPLUG: DC plug\nCRIMP: bare wire"}, new SingleValuePropertyType("HasConnector", "IfcBoolean") { Definition = "Indicate whether the wire pair end point is terminated with a connector or not."}, new SingleValuePropertyType("IsWelded", "IfcBoolean") { Definition = "Indicates whether the wire pair end point is joined to another wire pair end point by means of a welded junction."}, new SingleValuePropertyType("Power", "IfcPowerMeasure") { Definition = "The actual power and operable range."}, new SingleValuePropertyType("Voltage", "IfcElectricVoltageMeasure") { Definition = "The actual voltage and operable range."} }, new [] { "IfcDistributionPort" }); - yield return new PropertySetInfo("Pset_DistributionPortTypeDuct", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSubtype", "IfcLabel") { Definition = "The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M\nDIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P\nDSub: DA15, DB25, DC37, DD50, DE9, DE15\nEIAJ: RC5720\nHDMI: A, B, C\nRADIO: IEEE802.11g, IEEE802.11n\nRJ: 4P4C, 6P2C, 8P8C\nSOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40\nTRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini"}, new EnumerationPropertyType("ConnectionType", new [] { "BEADEDSLEEVE", "COMPRESSION", "CRIMP", "DRAWBAND", "DRIVESLIP", "FLANGED", "NONE", "OUTSIDESLEEVE", "SLIPON", "SOLDERED", "SSLIP", "STANDINGSEAM", "SWEDGE", "WELDED", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "The end-style treatment of the duct port:BEADEDSLEEVE: Beaded Sleeve.\nCOMPRESSION: Compression.\nCRIMP: Crimp.\nDRAWBAND: Drawband.\nDRIVESLIP: Drive slip.\nFLANGED: Flanged.\nOUTSIDESLEEVE: Outside Sleeve.\nSLIPON: Slipon.\nSOLDERED: Soldered.\nSSLIP: S-Slip.\nSTANDINGSEAM: Standing seam.\nSWEDGE: Swedge.\nWELDED: Welded.\nOTHER: Another type of end-style has been applied.\nNONE: No end-style has been applied."}, new SingleValuePropertyType("DryBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature of the object."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Pressure", "IfcPressureMeasure") { Definition = "The pressure of fluid."}, new SingleValuePropertyType("Velocity", "IfcLinearVelocityMeasure") { Definition = "The velocity of the fluid."}, new SingleValuePropertyType("VolumetricFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric flow rate of the fluid."}, new SingleValuePropertyType("WetBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Wet bulb temperature of the air."} }, new [] { "IfcDistributionPort" }); - yield return new PropertySetInfo("Pset_DistributionPortTypePipe", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSubtype", "IfcLabel") { Definition = "The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M\nDIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P\nDSub: DA15, DB25, DC37, DD50, DE9, DE15\nEIAJ: RC5720\nHDMI: A, B, C\nRADIO: IEEE802.11g, IEEE802.11n\nRJ: 4P4C, 6P2C, 8P8C\nSOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40\nTRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini"}, new EnumerationPropertyType("ConnectionType", new [] { "BRAZED", "COMPRESSION", "FLANGED", "GROOVED", "NONE", "OUTSIDESLEEVE", "SOLDERED", "SWEDGE", "THREADED", "WELDED", "OTHER", "UNSET" } ) { Definition = "The end-style treatment of the duct port:BEADEDSLEEVE: Beaded Sleeve.\nCOMPRESSION: Compression.\nCRIMP: Crimp.\nDRAWBAND: Drawband.\nDRIVESLIP: Drive slip.\nFLANGED: Flanged.\nOUTSIDESLEEVE: Outside Sleeve.\nSLIPON: Slipon.\nSOLDERED: Soldered.\nSSLIP: S-Slip.\nSTANDINGSEAM: Standing seam.\nSWEDGE: Swedge.\nWELDED: Welded.\nOTHER: Another type of end-style has been applied.\nNONE: No end-style has been applied."}, new SingleValuePropertyType("FlowCondition", "IfcPositiveRatioMeasure") { Definition = "Defines the flow condition as a percentage of the cross-sectional area."}, new SingleValuePropertyType("InnerDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual inner diameter of the object."}, new SingleValuePropertyType("MassFlowRate", "IfcMassFlowRateMeasure") { Definition = "The mass flow rate of the fluid."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object."}, new SingleValuePropertyType("OuterDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual outer diameter of the object."}, new SingleValuePropertyType("Pressure", "IfcPressureMeasure") { Definition = "The pressure of fluid."}, new SingleValuePropertyType("Temperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature of the fluid."}, new SingleValuePropertyType("Velocity", "IfcLinearVelocityMeasure") { Definition = "The velocity of the fluid."}, new SingleValuePropertyType("VolumetricFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric flow rate of the fluid."} }, new [] { "IfcDistributionPort" }); - yield return new PropertySetInfo("Pset_DistributionSystemCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcDistributionSystem" }); + yield return new PropertySetInfo("Pset_DistributionPortTypeDuct", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSubtype", "IfcLabel") { Definition = "The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M\nDIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P\nDSub: DA15, DB25, DC37, DD50, DE9, DE15\nEIAJ: RC5720\nHDMI: A, B, C\nRADIO: IEEE802.11g, IEEE802.11n\nRJ: 4P4C, 6P2C, 8P8C\nSOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40\nTRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini"}, new EnumerationPropertyType("ConnectionType", new [] { "BEADEDSLEEVE", "COMPRESSION", "CRIMP", "DRAWBAND", "DRIVESLIP", "FLANGED", "NONE", "OUTSIDESLEEVE", "SLIPON", "SOLDERED", "SSLIP", "STANDINGSEAM", "SWEDGE", "WELDED", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "The end-style treatment of the duct port:BEADEDSLEEVE: Beaded Sleeve.\nCOMPRESSION: Compression.\nCRIMP: Crimp.\nDRAWBAND: Drawband.\nDRIVESLIP: Drive slip.\nFLANGED: Flanged.\nOUTSIDESLEEVE: Outside Sleeve.\nSLIPON: Slipon.\nSOLDERED: Soldered.\nSSLIP: S-Slip.\nSTANDINGSEAM: Standing seam.\nSWEDGE: Swedge.\nWELDED: Welded.\nOTHER: Another type of end-style has been applied.\nNONE: No end-style has been applied."}, new SingleValuePropertyType("DryBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature of the object.\n\nIndicates dry bulb temperature of the air."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence.\n\nThe nominal height of the duct connection. Only provided for rectangular shaped ducts."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Pressure", "IfcPressureMeasure") { Definition = "The pressure of fluid."}, new SingleValuePropertyType("Velocity", "IfcLinearVelocityMeasure") { Definition = "The velocity of the fluid."}, new SingleValuePropertyType("VolumetricFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric flow rate of the fluid."}, new SingleValuePropertyType("WetBulbTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Wet bulb temperature of the air."} }, new [] { "IfcDistributionPort" }); + yield return new PropertySetInfo("Pset_DistributionPortTypePipe", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSubtype", "IfcLabel") { Definition = "The physical port connection subtype that further qualifies the ConnectionType. The following values are recommended:ACPLUG: A, B, C, D, E, F, EF, G, H, I, J, K, L, M\nDIN: Mini3P, Mini4P, Mini5P, Mini6P, Mini7P, Mini8P, Mini9P\nDSub: DA15, DB25, DC37, DD50, DE9, DE15\nEIAJ: RC5720\nHDMI: A, B, C\nRADIO: IEEE802.11g, IEEE802.11n\nRJ: 4P4C, 6P2C, 8P8C\nSOCKET: E-11, E-12, E-14, E-17, E-26, E-27, E-39, E-40\nTRS: TS_Mini, TS_SubMini, TRS_Mini, TRS_SubMini"}, new EnumerationPropertyType("ConnectionType", new [] { "BRAZED", "COMPRESSION", "FLANGED", "GROOVED", "NONE", "OUTSIDESLEEVE", "SOLDERED", "SWEDGE", "THREADED", "WELDED", "OTHER", "UNSET" } ) { Definition = "The end-style treatment of the duct port:BEADEDSLEEVE: Beaded Sleeve.\nCOMPRESSION: Compression.\nCRIMP: Crimp.\nDRAWBAND: Drawband.\nDRIVESLIP: Drive slip.\nFLANGED: Flanged.\nOUTSIDESLEEVE: Outside Sleeve.\nSLIPON: Slipon.\nSOLDERED: Soldered.\nSSLIP: S-Slip.\nSTANDINGSEAM: Standing seam.\nSWEDGE: Swedge.\nWELDED: Welded.\nOTHER: Another type of end-style has been applied.\nNONE: No end-style has been applied."}, new SingleValuePropertyType("FlowCondition", "IfcPositiveRatioMeasure") { Definition = "Defines the flow condition as a percentage of the cross-sectional area."}, new SingleValuePropertyType("InnerDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual inner diameter of the object."}, new SingleValuePropertyType("MassFlowRate", "IfcMassFlowRateMeasure") { Definition = "The mass flow rate of the fluid."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object.\n\nThe nominal diameter of the pipe connection."}, new SingleValuePropertyType("OuterDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual outer diameter of the object."}, new SingleValuePropertyType("Pressure", "IfcPressureMeasure") { Definition = "The pressure of fluid."}, new SingleValuePropertyType("Temperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature of the fluid."}, new SingleValuePropertyType("Velocity", "IfcLinearVelocityMeasure") { Definition = "The velocity of the fluid."}, new SingleValuePropertyType("VolumetricFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric flow rate of the fluid."} }, new [] { "IfcDistributionPort" }); + yield return new PropertySetInfo("Pset_DistributionSystemCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead.\n\nE.g. 'WWS/VS1', which indicates the system to be WWS, subsystems VSI/400."} }, new [] { "IfcDistributionSystem" }); yield return new PropertySetInfo("Pset_DistributionSystemTypeElectrical", new IPropertyTypeInfo[] { new SingleValuePropertyType("Diversity", "IfcPositiveRatioMeasure") { Definition = "The ratio, expressed as a numerical\nvalue or as a percentage, of the\nsimultaneous maximum demand of\na group of electrical appliances or\nconsumers within a specified period,\nto the sum of their individual maximum\ndemands within the same\nperiod. The group of electrical appliances is in this case connected to this circuit. Definition from IEC 60050, IEV 691-10-04\nNOTE1: It is often not desirable to size each conductor in a distribution system to support the total connected load at that point in the network. Diversity is applied on the basis of the anticipated loadings that are likely to result from all loads not being connected at the same time.\nNOTE2: Diversity is applied to final circuits only, not to sub-main circuits supplying other DBs."}, new EnumerationPropertyType("ElectricalSystemCategory", new [] { "EXTRALOWVOLTAGE", "HIGHVOLTAGE", "LOWVOLTAGE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Designates the voltage range of the circuit, according to IEC. HIGHVOLTAGE indicates >1000V AC or >1500V DV; LOWVOLTAGE indicates 50-1000V AC or 120-1500V DC; EXTRALOWVOLTAGE indicates <50V AC or <120V DC."}, new EnumerationPropertyType("ElectricalSystemType", new [] { "IT", "TN", "TN_C", "TN_C_S", "TN_S", "TT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "For certain purposes of electrical regulations, IEC 60364 defines types of system using type identifiers. Assignment of identifiers depends upon the relationship of the source, and of exposed conductive parts of the installation, to Ground (Earth). Identifiers that may be assigned through IEC 60364 are:•TN type system, a system having one or more points of the source of energy directly earthed, the exposed conductive parts of the installation being connected to that point by protective conductors,\n•TN C type system, a TN type system in which neutral and protective functions are combined in a single conductor throughout the system,\n•TN S type system, a TN type system having separate neutral and protective conductors throughout the system,\n•TN C S type system, a TN type system in which neutral and protective functions are combined in a single conductor in part of the system,\n•TT type system, a system having one point of the source of energy directly earthed, the exposed conductive parts of the installation being connected to earth electrodes electrically independent of the earth electrodes of the source,\n•IT type system, a system having no direct connection between live parts and Earth, the exposed conductive parts of the electrical installation being earthed."}, new SingleValuePropertyType("MaximumAllowedVoltageDrop", "IfcElectricVoltageMeasure") { Definition = "The maximum voltage drop across the circuit that must not be exceeded.\nThere are two voltage drop limit settings that may be applied; one for sub-main circuits, and one in each Distribution Board or Consumer Unit for final circuits connected to that board. The settings should limit the overall voltage drop to the required level. Default settings of 1.5% for sub-main circuits and 2.5% for final circuits, giving an overall limit of 4% may be applied.\nNOTE: This value may also be specified as a constraint within an IFC model if required but is included within the property set at this stage pending implementation of the required capabilities within software applications."}, new SingleValuePropertyType("NetImpedance", "IfcElectricResistanceMeasure") { Definition = "The maximum earth loop impedance upstream of a circuit (typically stated as the variable Zs). This value is for 55o C (130oF) Celsius usage."}, new SingleValuePropertyType("NumberOfLiveConductors", "IfcCountMeasure") { Definition = "Number of live conductors within this circuit. Either this property or the ConductorFunction property (if only one) may be asserted."}, new SingleValuePropertyType("RatedVoltageRange", "IfcElectricVoltageMeasure") { Definition = "Voltage range as declared by the manufacturer expressed by its lower and upper rated voltages [Source : IEC 62368-1:2010, 3.3.10.5]."} }, new [] { "IfcDistributionSystem" }); yield return new PropertySetInfo("Pset_DistributionSystemTypeOverheadContactlineSystem", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContactWireNominalDrop", "IfcPositiveLengthMeasure") { Definition = "Vertical distance between the main catenary wire and the contact wire measured at a support point."}, new SingleValuePropertyType("ContactWireNominalHeight", "IfcPositiveLengthMeasure") { Definition = "Nominal distance from the top of the rail to the lower face of the contact wire, measured perpendicular to the track."}, new SingleValuePropertyType("ContactWireStagger", "IfcPositiveLengthMeasure") { Definition = "Lateral displacement of the contact wire to opposite sides of the track centre at successive supports."}, new SingleValuePropertyType("ContactWireUplift", "IfcNonNegativeLengthMeasure") { Definition = "Vertical upward movement of the contact wire due to the force produced from the pantograph."}, new SingleValuePropertyType("ElectricalClearance", "IfcPositiveLengthMeasure") { Definition = "The recommended air clearances between earth and the live parts of the overhead contactline system."}, new SingleValuePropertyType("NumberOfOverlappingSpans", "IfcCountMeasure") { Definition = "Number of overlapping spans in the overhead contactline system."}, new EnumerationPropertyType("OCSType", new [] { "COMPOUND_CATENARY_SUSPENSION", "OCL_WITH_CATENARY_SUSPENSION", "OCL_WITH_STITCHED_CATENARY_SUSPENSION", "RIGID_CATENARY", "TROLLY_TYPE_CONTACT_LINE", "TROLLY_TYPE_WITH_STITCHWIRE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of overhead contactline system (OCS)."}, new SingleValuePropertyType("PantographType", "IfcLabel") { Definition = "Indicates the type of pantograph as a design parameter for the overhead contactline system."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("SpanNominalLength", "IfcPositiveLengthMeasure") { Definition = "The length of span as a design parameter for the overhead contactline system."}, new SingleValuePropertyType("TensionLength", "IfcPositiveLengthMeasure") { Definition = "Length of overhead contactline between two terminating points. It is a design parameter for the overhead contactline system."} }, new [] { "IfcDistributionSystem" }); - yield return new PropertySetInfo("Pset_DistributionSystemTypeVentilation", new IPropertyTypeInfo[] { new SingleValuePropertyType("AspectRatio", "IfcReal") { Definition = "The default aspect ratio."}, new SingleValuePropertyType("DesignName", "IfcLabel") { Definition = "A name for the design values."}, new EnumerationPropertyType("DuctSizingMethod", new [] { "CONSTANTFRICTION", "CONSTANTPRESSURE", "STATICREGAIN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the methodology to be used to size system components."}, new SingleValuePropertyType("FrictionLoss", "IfcReal") { Definition = "The pressure loss due to friction per unit length. (Data type = PressureMeasure/LengthMeasure)"}, new SingleValuePropertyType("LeakageClass", "IfcPressureMeasure") { Definition = "Nominal leakage rating for the system components."}, new SingleValuePropertyType("MaximumVelocity", "IfcLinearVelocityMeasure") { Definition = "The maximum design velocity of the air in the duct or fitting."}, new SingleValuePropertyType("MinimumHeight", "IfcPositiveLengthMeasure") { Definition = "The minimum duct height for rectangular, oval or round duct."}, new SingleValuePropertyType("MinimumWidth", "IfcPositiveLengthMeasure") { Definition = "The minimum duct width for oval or rectangular duct."}, new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object."}, new SingleValuePropertyType("ScrapFactor", "IfcReal") { Definition = "Sheet metal scrap factor."} }, new [] { "IfcDistributionSystem" }); - yield return new PropertySetInfo("Pset_DoorCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("DurabilityRating", "IfcLabel") { Definition = "Durability against mechanical stress. It is given according to the national code or regulation."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("GlazingAreaFraction", "IfcPositiveRatioMeasure") { Definition = "Fraction of the glazing area relative to the total area of the filling element.\nIt shall be used, if the glazing area is not given separately for all panels within the filling element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according the local building codes, otherwise (FALSE).\nIt is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasDrive", "IfcBoolean") { Definition = "Indication whether this object has an automatic drive to operate it (TRUE) or no drive (FALSE)"}, new SingleValuePropertyType("HygrothermalRating", "IfcLabel") { Definition = "Resistance against hygrothermal impact from different temperatures and humidities inside and outside. It is given according to the national code or regulation."}, new SingleValuePropertyType("Infiltration", "IfcVolumetricFlowRateMeasure") { Definition = "Infiltration flowrate of outside air for the filler object based on the area of the filler object at a pressure level of 50 Pascals. It shall be used, if the length of all joints is unknown."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalLoadRating", "IfcLabel") { Definition = "Mechanical load rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecurityRating", "IfcLabel") { Definition = "Index based rating system indicating security level.\nIt is giving according to the national building code."}, new SingleValuePropertyType("SelfClosing", "IfcBoolean") { Definition = "Indication whether this object is designed to close automatically after use (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SmokeStop", "IfcBoolean") { Definition = "Indication whether the object is designed to provide a smoke stop (TRUE) or not (FALSE)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("WaterTightnessRating", "IfcLabel") { Definition = "Water tightness rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcDoor", "IfcDoorType" }); + yield return new PropertySetInfo("Pset_DistributionSystemTypeVentilation", new IPropertyTypeInfo[] { new SingleValuePropertyType("AspectRatio", "IfcReal") { Definition = "The default aspect ratio."}, new SingleValuePropertyType("DesignName", "IfcLabel") { Definition = "A name for the design values."}, new EnumerationPropertyType("DuctSizingMethod", new [] { "CONSTANTFRICTION", "CONSTANTPRESSURE", "STATICREGAIN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the methodology to be used to size system components."}, new SingleValuePropertyType("FrictionLoss", "IfcReal") { Definition = "The pressure loss due to friction per unit length. (Data type = PressureMeasure/LengthMeasure)"}, new SingleValuePropertyType("LeakageClass", "IfcPressureMeasure") { Definition = "Nominal leakage rating for the system components."}, new SingleValuePropertyType("MaximumVelocity", "IfcLinearVelocityMeasure") { Definition = "The maximum design velocity of the air in the duct or fitting."}, new SingleValuePropertyType("MinimumHeight", "IfcPositiveLengthMeasure") { Definition = "The minimum duct height for rectangular, oval or round duct."}, new SingleValuePropertyType("MinimumWidth", "IfcPositiveLengthMeasure") { Definition = "The minimum duct width for oval or rectangular duct."}, new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object.\n\nNominal pressure rating of the system components."}, new SingleValuePropertyType("ScrapFactor", "IfcReal") { Definition = "Sheet metal scrap factor."} }, new [] { "IfcDistributionSystem" }); + yield return new PropertySetInfo("Pset_DoorCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("DurabilityRating", "IfcLabel") { Definition = "Durability against mechanical stress. It is given according to the national code or regulation."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere it defines an exit door in accordance to the national building code."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("GlazingAreaFraction", "IfcPositiveRatioMeasure") { Definition = "Fraction of the glazing area relative to the total area of the filling element.\nIt shall be used, if the glazing area is not given separately for all panels within the filling element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according to the local building codes, otherwise (FALSE). It is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasDrive", "IfcBoolean") { Definition = "Indication whether this object has an automatic drive to operate it (TRUE) or no drive (FALSE)"}, new SingleValuePropertyType("HygrothermalRating", "IfcLabel") { Definition = "Resistance against hygrothermal impact from different temperatures and humidities inside and outside. It is given according to the national code or regulation."}, new SingleValuePropertyType("Infiltration", "IfcVolumetricFlowRateMeasure") { Definition = "Infiltration flowrate of outside air for the filler object based on the area of the filler object at a pressure level of 50 Pascals. It shall be used, if the length of all joints is unknown."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalLoadRating", "IfcLabel") { Definition = "Mechanical load rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecurityRating", "IfcLabel") { Definition = "Index based rating system indicating security level.\nIt is giving according to the national building code."}, new SingleValuePropertyType("SelfClosing", "IfcBoolean") { Definition = "Indication whether this object is designed to close automatically after use (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SmokeStop", "IfcBoolean") { Definition = "Indication whether the object is designed to provide a smoke stop (TRUE) or not (FALSE)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("WaterTightnessRating", "IfcLabel") { Definition = "Water tightness rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcDoor", "IfcDoorType" }); + yield return new PropertySetInfo("Pset_DoorLiningProperties", new IPropertyTypeInfo[] { new SingleValuePropertyType("CasingDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of the casing.\n\nFor a door, it is the dimension in the plane perpendicular to door leaf. If given it is applied equally to all four sides of the adjacent wall."}, new SingleValuePropertyType("CasingThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the casing.\n\nFor a door, it is the dimension in plane of the door leaf. If given it is applied equally to all four sides of the adjacent wall."}, new SingleValuePropertyType("LiningDepth", "IfcPositiveLengthMeasure") { Definition = "The depth of the lining.\n\nFor a door, it is the depth of the door lining, measured perpendicular to the plane of the door lining. If omitted (and with a given value to lining thickness) it indicates an adjustable depth (i.e. a depth that adjusts to the thickness of the wall into which the occurrence of this door style is inserted)."}, new SingleValuePropertyType("LiningOffset", "IfcLengthMeasure") { Definition = "Offset of the lining.\n\nFor a door, it is the offset (dimension in plane perpendicular to door leaf) of the door lining. The offset is given as distance to the x axis of the local placement."}, new SingleValuePropertyType("LiningThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the lining.\n\nFor a door, it is the thickness of the door lining as explained in the figure above. If LiningThickness value is 0. (zero) it denotes a door without a lining (all other lining parameters shall be set to NIL in this case). If the LiningThickness is NIL it denotes that the value is not available."}, new SingleValuePropertyType("LiningToPanelOffsetX", "IfcLengthMeasure") { Definition = "Offset between the lining and the panel, measured along the x-axis of the local placement.\n\nFor a door, it is the offset between the lining and the window panel."}, new SingleValuePropertyType("LiningToPanelOffsetY", "IfcLengthMeasure") { Definition = "Offset between the lining and the panel, measured along the y-axis of the local placement.\n\nFor a door, it is the offset between the lining and the door panel."}, new SingleValuePropertyType("ThresholdDepth", "IfcPositiveLengthMeasure") { Definition = "Depth (dimension in plane perpendicular to door leaf) of the door threshold. Only given if the door lining includes a threshold. If omitted (and with a given value to threshold thickness) it indicates an adjustable depth (i.e. a depth that adjusts to the thickness of the wall into which the occurrence of this door style is inserted)."}, new SingleValuePropertyType("ThresholdOffset", "IfcLengthMeasure") { Definition = "Offset (dimension in plane perpendicular to door leaf) of the door threshold. The offset is given as distance to the x axis of the local placement. Only given if the door lining includes a threshold and the parameter is known."}, new SingleValuePropertyType("ThresholdThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the door threshold as explained in the figure above. If ThresholdThickness value is 0. (zero) it denotes a door without a threshold (ThresholdDepth shall be set to NIL in this case). If the ThresholdThickness is NIL it denotes that the information about a threshold is not available."}, new SingleValuePropertyType("TransomOffset", "IfcLengthMeasure") { Definition = "Offset of the transom (if given) which divides the door leaf from a glazing (or window) above. The offset is given from the bottom of the door opening."}, new SingleValuePropertyType("TransomThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the transom.\n\nFor a door, it is the thickness (width in plane parallel to door leaf) of the transom (if provided - that is, if the TransomOffset attribute is set), which divides the door leaf from a glazing (or window) above. If the TransomThickness is set to zero (and the TransomOffset set to a positive length), then the door is divided vertically into a leaf and transom window area without a physical frame."} }, new [] { "IfcDoor", "IfcMember", "IfcDoorType", "IfcMemberType" }); + yield return new PropertySetInfo("Pset_DoorPanelProperties", new IPropertyTypeInfo[] { new SingleValuePropertyType("PanelDepth", "IfcPositiveLengthMeasure") { Definition = "Depth of the panel.\n\nFor a door, it is the depth of the door panel, measured perpendicular to the plane of the door leaf."}, new EnumerationPropertyType("PanelOperation", new [] { "DOUBLE_ACTING", "FIXEDPANEL", "FOLDING", "REVOLVING", "ROLLINGUP", "SLIDING", "SWINGING", "OTHER", "NOTKNOWN", "UNSET", "NOTDEFINED" } ) { Definition = "The way of operation of a panel.\n\nFor a door, it is the way of operation of the panel. The PanelOperation of the door panel shall correspond to the OperationType of the IfcDoorType by which it is referenced."}, new EnumerationPropertyType("PanelPosition", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Position of the panel.\n\nFor a door, it is the position of the panel within the door. The PanelPosition of the door panel shall correspond to the OperationType of the IfcDoorType by which it is referenced."}, new SingleValuePropertyType("PanelWidth", "IfcNormalisedRatioMeasure") { Definition = "Width of the panel.\n\nFor a door, it is the width of the panel, given as ratio relative to the total clear opening width of the door. If omitted, it defaults to 1. A value shall be provided for all doors with OperationType's at IfcDoorType defining a door with more then one panel."} }, new [] { "IfcDoor", "IfcPlate", "IfcDoorType", "IfcPlateType" }); yield return new PropertySetInfo("Pset_DoorTypeTurnstile", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsBidirectional", "IfcBoolean") { Definition = "Indicates whether the turnstile is bidirectional."}, new SingleValuePropertyType("NarrowChannelWidth", "IfcPositiveLengthMeasure") { Definition = "Indicates the width of the narrow channel."}, new EnumerationPropertyType("TurnstileType", new [] { "SWINGGATEBRAKE", "THREEPOLEROTARYBRAKE", "WINGGATEBRAKE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of turnstile gate."}, new SingleValuePropertyType("WideChannelWidth", "IfcPositiveLengthMeasure") { Definition = "Indicates the width of the wide channel."} }, new [] { "IfcDoor", "IfcDoorType" }); - yield return new PropertySetInfo("Pset_DoorWindowGlazingType", new IPropertyTypeInfo[] { new SingleValuePropertyType("FillGas", "IfcLabel") { Definition = "Name of the gas by which the gap between two glass layers is filled. It is given for information purposes only."}, new SingleValuePropertyType("GlassColour", "IfcLabel"), new SingleValuePropertyType("GlassLayers", "IfcCountMeasure") { Definition = "Number of glass layers within the frame. E.g. \"2\" for double glazing."}, new SingleValuePropertyType("GlassThickness1", "IfcPositiveLengthMeasure") { Definition = "Thickness of the first (inner) glass layer."}, new SingleValuePropertyType("GlassThickness2", "IfcPositiveLengthMeasure") { Definition = "Thickness of the second (intermediate or outer) glass layer."}, new SingleValuePropertyType("GlassThickness3", "IfcPositiveLengthMeasure") { Definition = "Thickness of the third (outer) glass layer."}, new SingleValuePropertyType("IsCoated", "IfcBoolean") { Definition = "Indication whether the glass is coated with a material (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsLaminated", "IfcBoolean") { Definition = "Indication whether the glass is layered with other materials (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsTempered", "IfcBoolean") { Definition = "Indication whether the glass is tempered (TRUE) or not (FALSE) ."}, new SingleValuePropertyType("IsWired", "IfcBoolean") { Definition = "Indication whether the glass includes a contained wire mesh to prevent break-in (TRUE) or not (FALSE)"}, new SingleValuePropertyType("ShadingCoefficient", "IfcNormalisedRatioMeasure") { Definition = "(SC): The measure of the ability of a glazing to transmit solar heat, relative to that ability for 3 mm (1/8-inch) clear, double-strength, single glass. Shading coefficient is being phased out in favor of the solar heat gain coefficient (SHGC), and is approximately equal to the SHGC multiplied by 1.15. The shading coefficient is expressed as a number without units between 0 and 1."}, new SingleValuePropertyType("SolarAbsorption", "IfcNormalisedRatioMeasure") { Definition = "(Asol) The ratio of incident solar radiation that is absorbed by a glazing system. It is the sum of the absorption distributed to the exterior (a) and to the interior (qi). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarHeatGainTransmittance", "IfcNormalisedRatioMeasure") { Definition = "(SHGC): The ratio of incident solar radiation that contributes to the heat gain of the interior, it is the solar radiation that directly passes (Tsol or τe) plus the part of the absorbed radiation that is distributed to the interior (qi). The SHGC is referred to also as g-value (g = τe + qi)."}, new SingleValuePropertyType("SolarReflectance", "IfcNormalisedRatioMeasure") { Definition = "(Rsol): The ratio of incident solar radiation that is reflected by a glazing system (also named ρe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarTransmittance", "IfcNormalisedRatioMeasure") { Definition = "The ratio of incident solar radiation that directly passes through a system (also named τe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("ThermalTransmittanceSummer", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of a material.\nSummer thermal transmittance coefficient of the glazing only, often referred to as (U-value)."}, new SingleValuePropertyType("ThermalTransmittanceWinter", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of a material.\nWinter thermal transmittance coefficient of the glazing only, often referred to as (U-value)."}, new SingleValuePropertyType("VisibleLightReflectance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that is reflected by the glazing at normal incidence. It is a value without unit."}, new SingleValuePropertyType("VisibleLightTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that passes the object at normal incidence. It is a value without unit."} }, new [] { "IfcDoor", "IfcWindow", "IfcDoorType", "IfcWindowType" }); - yield return new PropertySetInfo("Pset_DuctFittingOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("HasLiner", "IfcBoolean") { Definition = "TRUE if the fitting has interior duct insulating lining, FALSE if it does not."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcDuctFitting" }); + yield return new PropertySetInfo("Pset_DoorWindowGlazingType", new IPropertyTypeInfo[] { new SingleValuePropertyType("FillGas", "IfcLabel") { Definition = "Name of the gas by which the gap between two glass layers is filled. It is given for information purposes only."}, new SingleValuePropertyType("GlassColour", "IfcLabel") { Definition = "Colour (tint) selection for this glazing. It is given for information purposes only."}, new SingleValuePropertyType("GlassLayers", "IfcCountMeasure") { Definition = "Number of glass layers within the frame. E.g. \"2\" for double glazing."}, new SingleValuePropertyType("GlassThickness1", "IfcPositiveLengthMeasure") { Definition = "Thickness of the first (inner) glass layer."}, new SingleValuePropertyType("GlassThickness2", "IfcPositiveLengthMeasure") { Definition = "Thickness of the second (intermediate or outer) glass layer."}, new SingleValuePropertyType("GlassThickness3", "IfcPositiveLengthMeasure") { Definition = "Thickness of the third (outer) glass layer."}, new SingleValuePropertyType("IsCoated", "IfcBoolean") { Definition = "Indication whether the glass is coated with a material (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsLaminated", "IfcBoolean") { Definition = "Indication whether the glass is layered with other materials (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsTempered", "IfcBoolean") { Definition = "Indication whether the glass is tempered (TRUE) or not (FALSE) ."}, new SingleValuePropertyType("IsWired", "IfcBoolean") { Definition = "Indication whether the glass includes a contained wire mesh to prevent break-in (TRUE) or not (FALSE)"}, new SingleValuePropertyType("ShadingCoefficient", "IfcNormalisedRatioMeasure") { Definition = "(SC): The measure of the ability of a glazing to transmit solar heat, relative to that ability for 3 mm (1/8-inch) clear, double-strength, single glass. Shading coefficient is being phased out in favor of the solar heat gain coefficient (SHGC), and is approximately equal to the SHGC multiplied by 1.15. The shading coefficient is expressed as a number without units between 0 and 1."}, new SingleValuePropertyType("SolarAbsorption", "IfcNormalisedRatioMeasure") { Definition = "(Asol) The ratio of incident solar radiation that is absorbed by a glazing system. It is the sum of the absorption distributed to the exterior (a) and to the interior (qi). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarHeatGainTransmittance", "IfcNormalisedRatioMeasure") { Definition = "(SHGC): The ratio of incident solar radiation that contributes to the heat gain of the interior, it is the solar radiation that directly passes (Tsol or τe) plus the part of the absorbed radiation that is distributed to the interior (qi). The SHGC is referred to also as g-value (g = τe + qi)."}, new SingleValuePropertyType("SolarReflectance", "IfcNormalisedRatioMeasure") { Definition = "(Rsol): The ratio of incident solar radiation that is reflected by a glazing system (also named ρe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarTransmittance", "IfcNormalisedRatioMeasure") { Definition = "The ratio of incident solar radiation that directly passes through a system (also named τe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("ThermalTransmittanceSummer", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of a material.\nSummer thermal transmittance coefficient of the glazing only, often referred to as (U-value)."}, new SingleValuePropertyType("ThermalTransmittanceWinter", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of a material.\nWinter thermal transmittance coefficient of the glazing only, often referred to as (U-value)."}, new SingleValuePropertyType("VisibleLightReflectance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that is reflected by the glazing at normal incidence. It is a value without unit."}, new SingleValuePropertyType("VisibleLightTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that passes the object at normal incidence. It is a value without unit."} }, new [] { "IfcDoor", "IfcWindow", "IfcDoorType", "IfcWindowType" }); + yield return new PropertySetInfo("Pset_DuctFittingOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("HasLiner", "IfcBoolean") { Definition = "TRUE if the fitting has interior duct insulating lining, FALSE if it does not."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcDuctFitting" }); yield return new PropertySetInfo("Pset_DuctFittingPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcDuctFitting" }); - yield return new PropertySetInfo("Pset_DuctFittingTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."} }, new [] { "IfcDuctFitting", "IfcDuctFittingType" }); - yield return new PropertySetInfo("Pset_DuctSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("HasLiner", "IfcBoolean") { Definition = "TRUE if the fitting has interior duct insulating lining, FALSE if it does not."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcDuctSegment" }); + yield return new PropertySetInfo("Pset_DuctFittingTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object.\n\nPressure classification as defined by the authority having jurisdiction (e.g., SMACNA, etc.)."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."} }, new [] { "IfcDuctFitting", "IfcDuctFittingType" }); + yield return new PropertySetInfo("Pset_DuctSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("HasLiner", "IfcBoolean") { Definition = "TRUE if the fitting has interior duct insulating lining, FALSE if it does not."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcDuctSegment" }); yield return new PropertySetInfo("Pset_DuctSegmentPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcDuctSegment" }); - yield return new PropertySetInfo("Pset_DuctSegmentTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CrossSectionShape", new [] { "FLATOVAL", "RECTANGULAR", "ROUND", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Cross sectional shape. Note that this shape is uniform throughout the length of the segment. For nonuniform shapes, a transition fitting should be used instead."}, new SingleValuePropertyType("LongitudinalSeam", "IfcText") { Definition = "The type of seam to be used along the longitudinal axis of the duct segment."}, new SingleValuePropertyType("NominalDiameterOrWidth", "IfcPositiveLengthMeasure") { Definition = "The nominal diameter or width of the duct segment."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Reinforcement", "IfcLabel") { Definition = "The type of reinforcement, if any, used for the duct segment."}, new SingleValuePropertyType("ReinforcementSpacing", "IfcPositiveLengthMeasure") { Definition = "The spacing between reinforcing elements."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("WorkingPressure", "IfcPressureMeasure") { Definition = "Working pressure."} }, new [] { "IfcDuctSegment", "IfcDuctSegmentType" }); + yield return new PropertySetInfo("Pset_DuctSegmentTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CrossSectionShape", new [] { "FLATOVAL", "RECTANGULAR", "ROUND", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Cross sectional shape. Note that this shape is uniform throughout the length of the segment. For nonuniform shapes, a transition fitting should be used instead."}, new SingleValuePropertyType("LongitudinalSeam", "IfcText") { Definition = "The type of seam to be used along the longitudinal axis of the duct segment."}, new SingleValuePropertyType("NominalDiameterOrWidth", "IfcPositiveLengthMeasure") { Definition = "The nominal diameter or width of the duct segment."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Reinforcement", "IfcLabel") { Definition = "The type of reinforcement, if any, used for the duct segment."}, new SingleValuePropertyType("ReinforcementSpacing", "IfcPositiveLengthMeasure") { Definition = "The spacing between reinforcing elements."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("WorkingPressure", "IfcPressureMeasure") { Definition = "Working pressure.\n\nPressure classification as defined by the authority having jurisdiction (e.g., SMACNA, etc.)."} }, new [] { "IfcDuctSegment", "IfcDuctSegmentType" }); yield return new PropertySetInfo("Pset_DuctSilencerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcDuctSilencer" }); yield return new PropertySetInfo("Pset_DuctSilencerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirFlowRateRange", "IfcVolumetricFlowRateMeasure") { Definition = "Possible range of airflow that can be delivered."}, new SingleValuePropertyType("HasExteriorInsulation", "IfcBoolean") { Definition = "TRUE if the silencer has exterior insulation. FALSE if it does not."}, new SingleValuePropertyType("HydraulicDiameter", "IfcLengthMeasure") { Definition = "Hydraulic diameter."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object"}, new SingleValuePropertyType("WorkingPressureRange", "IfcPressureMeasure") { Definition = "Allowable minimum and maximum working pressure (relative to ambient pressure)."} }, new [] { "IfcDuctSilencer", "IfcDuctSilencerType" }); - yield return new PropertySetInfo("Pset_ElectricalDeviceCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("ConductorFunction", new [] { "NEUTRAL", "PHASE_L1", "PHASE_L2", "PHASE_L3", "PROTECTIVEEARTH", "PROTECTIVEEARTHNEUTRAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates function of the conductors to which the load is connected. Where L1, L2 and L3 represent the phase lines according to IEC 60446 notation (sometimes phase lines may be referenced by color [Red, Blue, Yellow] or by number [1, 2, 3] etc). Protective Earth is sometimes also known as CPC or common protective conductor. Note that for an electrical device, a set of line conductor functions may be applied."}, new SingleValuePropertyType("EarthingStyle", "IfcLabel") { Definition = "Indicates the earthing style of the electric device."}, new SingleValuePropertyType("HasProtectiveEarth", "IfcBoolean") { Definition = "Indicates whether the object has a protective earth connection (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("HeatDissipation", "IfcPowerMeasure") { Definition = "Indicates the heat dissipation of the electric device measured in power."}, new SingleValuePropertyType("IK_Code", "IfcLabel") { Definition = "IK Code according to IEC 62262 (2002) is a numeric classification for the degree of protection provided by enclosures for electrical equipment against external mechanical impacts.NOTE In earlier labeling, the third numeral (1..) had been occasionally added to the closely related IP Code on ingress protection, to indicate the level of impact protection."}, new EnumerationPropertyType("InsulationStandardClass", new [] { "CLASS0APPLIANCE", "CLASS0IAPPLIANCE", "CLASSIAPPLIANCE", "CLASSIIAPPLIANCE", "CLASSIIIAPPLIANCE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Insulation standard classes provides basic protection information against electric shock. Defines levels of insulation required in terms of constructional requirements (creepage and clearance distances) and electrical requirements (compliance with electric strength tests). Basic insulation is considered to be shorted under single fault conditions. The actual values required depend on the working voltage to which the insulation is subjected, as well as other factors. Also indicates whether the electrical device has a protective earth connection."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("NominalFrequencyRange", "IfcFrequencyMeasure") { Definition = "The upper and lower limits of frequency for which the operation of the device is certified."}, new SingleValuePropertyType("NominalPowerConsumption", "IfcPowerMeasure") { Definition = "Nominal total power consumption."}, new SingleValuePropertyType("NumberOfPoles", "IfcCountMeasure") { Definition = "Number of poles that the object would affect."}, new SingleValuePropertyType("Power", "IfcPowerMeasure") { Definition = "The actual power and operable range."}, new SingleValuePropertyType("PowerFactor", "IfcNormalisedRatioMeasure") { Definition = "Power factor; usually as ratio."}, new SingleValuePropertyType("RatedCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that a device is designed to handle."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcDistributionElement", "IfcDistributionElementType" }); + yield return new PropertySetInfo("Pset_ElectricalDeviceCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("ConductorFunction", new [] { "NEUTRAL", "PHASE_L1", "PHASE_L2", "PHASE_L3", "PROTECTIVEEARTH", "PROTECTIVEEARTHNEUTRAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates function of the conductors to which the load is connected. Where L1, L2 and L3 represent the phase lines according to IEC 60446 notation (sometimes phase lines may be referenced by color [Red, Blue, Yellow] or by number [1, 2, 3] etc). Protective Earth is sometimes also known as CPC or common protective conductor. Note that for an electrical device, a set of line conductor functions may be applied."}, new SingleValuePropertyType("EarthingStyle", "IfcLabel") { Definition = "Indicates the earthing style of the electric device."}, new SingleValuePropertyType("HasProtectiveEarth", "IfcBoolean") { Definition = "Indicates whether the object has a protective earth connection (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("HeatDissipation", "IfcPowerMeasure") { Definition = "Indicates the heat dissipation of the electric device measured in power."}, new SingleValuePropertyType("IK_Code", "IfcLabel") { Definition = "IK Code according to IEC 62262 (2002) is a numeric classification for the degree of protection provided by enclosures for electrical equipment against external mechanical impacts.NOTE In earlier labeling, the third numeral (1..) had been occasionally added to the closely related IP Code on ingress protection, to indicate the level of impact protection."}, new EnumerationPropertyType("InsulationStandardClass", new [] { "CLASS0APPLIANCE", "CLASS0IAPPLIANCE", "CLASSIAPPLIANCE", "CLASSIIAPPLIANCE", "CLASSIIIAPPLIANCE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Insulation standard classes provides basic protection information against electric shock. Defines levels of insulation required in terms of constructional requirements (creepage and clearance distances) and electrical requirements (compliance with electric strength tests). Basic insulation is considered to be shorted under single fault conditions. The actual values required depend on the working voltage to which the insulation is subjected, as well as other factors. Also indicates whether the electrical device has a protective earth connection."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("NominalFrequencyRange", "IfcFrequencyMeasure") { Definition = "The upper and lower limits of frequency for which the operation of the device is certified."}, new SingleValuePropertyType("NominalPowerConsumption", "IfcPowerMeasure") { Definition = "Nominal total power consumption."}, new SingleValuePropertyType("NumberOfPoles", "IfcCountMeasure") { Definition = "Number of poles that the object would affect.\n\nThe number of live lines that is intended to be handled by the device."}, new SingleValuePropertyType("Power", "IfcPowerMeasure") { Definition = "The actual power and operable range."}, new SingleValuePropertyType("PowerFactor", "IfcNormalisedRatioMeasure") { Definition = "Power factor; usually as ratio.\n\nThe ratio between the rated electrical power and the product of the rated current and rated voltage"}, new SingleValuePropertyType("RatedCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that a device is designed to handle."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcDistributionElement", "IfcDistributionElementType" }); yield return new PropertySetInfo("Pset_ElectricalDeviceCompliance", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionElement", "IfcDistributionElementType" }); yield return new PropertySetInfo("Pset_ElectricalFeederLine", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentCarryingCapacity", "IfcElectricCurrentMeasure") { Definition = "Maximum value of electric current which can be carried continuously by a conductor, a device or an apparatus, under specified conditions without its steady-state temperature exceeding a specified value. Based on IEC60826-11-13. NOTE: The temperature specified value is maximum Design Ambient Temperature."}, new SingleValuePropertyType("DesignAmbientTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The highest and lowest local ambient temperature likely to be encountered."}, new SingleValuePropertyType("ElectricalClearanceDistance", "IfcPositiveLengthMeasure") { Definition = "The distance between two conductive parts along a string stretched the shortest way between these conductive parts. (IEV ref 441-17-31)"}, new EnumerationPropertyType("ElectricalFeederType", new [] { "ALONGTRACKFEEDER", "BYPASSFEEDER", "NEGATIVEFEEDER", "POSITIVEFEEDER", "REINFORCINGFEEDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of electrical feeder."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_ElectricAppliancePHistory", new IPropertyTypeInfo[] { }, new [] { "IfcElectricAppliance" }); @@ -972,29 +974,29 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_ElementAssemblyTypeSteadyDevice", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContactWireStagger", "IfcPositiveLengthMeasure") { Definition = "Lateral displacement of the contact wire to opposite sides of the track centre at successive supports."}, new SingleValuePropertyType("IsSetOnWorkingWire", "IfcBoolean") { Definition = "Indicates whether the steady device is set on the working wire."}, new EnumerationPropertyType("SteadyDeviceType", new [] { "PULL_OFF", "PUSH_OFF", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of Steady Device: To indicate the mode of registration."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_ElementAssemblyTypeSupportingAssembly", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfCantilevers", "IfcCountMeasure") { Definition = "Indicates the number of cantilevers in the OCS supporting system."}, new EnumerationPropertyType("TypeOfSupportingSystem", new [] { "ENDCATENARYSUPPORT", "HEADSPANSUPPORT", "HERSE", "MULTITRACKSUPPORT", "RIGIDGANTRY", "SIMPLESUPPORT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of foundation in the OCS supporting system."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_ElementAssemblyTypeTrackPanel", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsAccessibleByVehicle", "IfcBoolean") { Definition = "Indicates whether the element is accessible by a vehicle or not."}, new SingleValuePropertyType("TrackExpansion", "IfcPositiveLengthMeasure") { Definition = "In curvature context, bounded value of the expansion distance that can be added to rail gauge."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); - yield return new PropertySetInfo("Pset_ElementAssemblyTypeTractionSwitchingAssembly", new IPropertyTypeInfo[] { new SingleValuePropertyType("DesignAmbientTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The highest and lowest local ambient temperature likely to be encountered."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NominalPower", "IfcPowerMeasure") { Definition = "A conventional value of apparent power determining a value of the rated current that may be carried with rated voltage applied, under specified conditions. ( IEV ref 421-04-04)"}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); + yield return new PropertySetInfo("Pset_ElementAssemblyTypeTractionSwitchingAssembly", new IPropertyTypeInfo[] { new SingleValuePropertyType("DesignAmbientTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The highest and lowest local ambient temperature likely to be encountered."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured.\n\nA set of nominal currents in [A] for which the data of this instance is valid. At least one value shall be provided. Any value in the set shall not exceed the value of the\nUltimateRatedCurrent associated with the same breaker unit."}, new SingleValuePropertyType("NominalPower", "IfcPowerMeasure") { Definition = "A conventional value of apparent power determining a value of the rated current that may be carried with rated voltage applied, under specified conditions. ( IEV ref 421-04-04)"}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_ElementAssemblyTypeTurnoutPanel", new IPropertyTypeInfo[] { new EnumerationPropertyType("BranchLineDirection", new [] { "LEFTDEVIATION", "LEFT_LEFTDEVIATION", "LEFT_RIGHTDEVIATION", "RIGHTDEVIATION", "RIGHT_LEFTDEVIATION", "RIGHT_RIGHTDEVIATION", "SYMETRIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Describes the direction associated to the branch line of the turnout (deviated branch)."}, new SingleValuePropertyType("IsAccessibleByVehicle", "IfcBoolean") { Definition = "Indicates whether the element is accessible by a vehicle or not."}, new SingleValuePropertyType("IsSharedTurnout", "IfcBoolean") { Definition = "Indicates if the turnout makes a connection to another infrastructure owner (for sharing costs)."}, new SingleValuePropertyType("MaximumSpeedLimitOfDivergingLine", "IfcLinearVelocityMeasure") { Definition = "Maximum speed for diverging line that corresponds to the type of turnout and design constraints."}, new SingleValuePropertyType("PercentShared", "IfcPositiveRatioMeasure") { Definition = "Percent of costs paid by the other infrastructure owner."}, new EnumerationPropertyType("TrackElementOrientation", new [] { "BACK", "FRONT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Turnout panels can be placed in 2 mirror-symmetric directions in the field. To distinguish both ends of the turnout panel, a definition of an orientation system with respect to the panel is necessary. The orientation defines, if the panel is oriented in a way or opposite with respect to the direction of the alignment/stationing."}, new SingleValuePropertyType("TrackExpansion", "IfcPositiveLengthMeasure") { Definition = "In curvature context, bounded value of the expansion distance that can be added to rail gauge."}, new SingleValuePropertyType("TrackGaugeLength", "IfcPositiveLengthMeasure") { Definition = "Basic track gauge of permanent way."}, new SingleValuePropertyType("TurnoutCurvedRadius", "IfcLengthMeasure") { Definition = "If turnout is curved, the main branch radius of curvature."}, new EnumerationPropertyType("TurnoutHeaterType", new [] { "ELECTRIC", "GAS", "GEOTHERMAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the kind of turnout heater installed."}, new SingleValuePropertyType("TurnoutPointMachineCount", "IfcCountMeasure") { Definition = "Count of point machines inside turnout panel."}, new EnumerationPropertyType("TypeOfCurvedTurnout", new [] { "CIRCULAR_ARC", "STRAIGHT", "TRANSITION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Turnouts that are positioned in the curved part of the alignment."}, new EnumerationPropertyType("TypeOfDrivingDevice", new [] { "ELECTRIC", "HYDRAULIC", "MANUAL", "MIXED", "MOTORISED", "PNEUMATIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the driving device used for the turnout."}, new EnumerationPropertyType("TypeOfJunction", new [] { "ISOLATED_JOINT", "JOINTED", "WELDED_AND_INSERTABLE", "WELDED_AND_NOT_INSERTABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The turnout part of the continuous welded rail."}, new EnumerationPropertyType("TypeOfTurnout", new [] { "DERAILMENT_TURNOUT", "DIAMOND_CROSSING", "DOUBLE_SLIP_CROSSING", "SCISSOR_CROSSOVER", "SINGLE_SLIP_CROSSING", "SLIP_TURNOUT_AND_SCISSORS_CROSSING", "SYMMETRIC_TURNOUT", "THREE_WAYS_TURNOUT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of turnout."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_ElementComponentCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CorrosionTreatment", new [] { "EPOXYCOATED", "GALVANISED", "NONE", "PAINTED", "STAINLESS", "NOTDEFINED" } ) { Definition = "Determines corrosion treatment for metal components. This property is provided if the requirement needs to be expressed (a) independently of a material specification and (b) as a mere requirements statement rather than a workshop design/ processing feature."}, new EnumerationPropertyType("DeliveryType", new [] { "ATTACHED_FOR_DELIVERY", "CAST_IN_PLACE", "LOOSE", "PRECAST", "WELDED_TO_STRUCTURE", "NOTDEFINED" } ) { Definition = "Determines how the accessory will be delivered to the site."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcElementComponent", "IfcElementComponentType" }); - yield return new PropertySetInfo("Pset_ElementKinematics", new IPropertyTypeInfo[] { new SingleValuePropertyType("CyclicRange", "IfcPlaneAngleMeasure") { Definition = "Identifies the angular range of the kinematic behaviour"}, new SingleValuePropertyType("LinearRange", "IfcPositiveLengthMeasure") { Definition = "Identifies the linear range of the kinematic behaviour."}, new SingleValuePropertyType("MaximumAngularVelocity", "IfcAngularVelocityMeasure") { Definition = "Identifies the maximum angular velocity of the kinematic behaviour."}, new SingleValuePropertyType("MaximumConstantSpeed", "IfcLinearVelocityMeasure") { Definition = "Identifies the maximum constant speed over the kinematic path."}, new SingleValuePropertyType("MinimumTime", "IfcTimeMeasure") { Definition = "Identifies the minimum time for the kinematic behaviour."} }, new [] { "IfcElement", "IfcElementType", "IfcElementType", "IfcElement" }); + yield return new PropertySetInfo("Pset_ElementKinematics", new IPropertyTypeInfo[] { new SingleValuePropertyType("CyclicRange", "IfcPlaneAngleMeasure") { Definition = "Identifies the angular range of the kinematic behaviour"}, new SingleValuePropertyType("LinearRange", "IfcPositiveLengthMeasure") { Definition = "Identifies the linear range of the kinematic behaviour."}, new SingleValuePropertyType("MaximumAngularVelocity", "IfcAngularVelocityMeasure") { Definition = "Identifies the maximum angular velocity of the kinematic behaviour."}, new SingleValuePropertyType("MaximumConstantSpeed", "IfcLinearVelocityMeasure") { Definition = "Identifies the maximum constant speed over the kinematic path."}, new SingleValuePropertyType("MinimumTime", "IfcTimeMeasure") { Definition = "Identifies the minimum time for the kinematic behaviour."} }, new [] { "IfcElement", "IfcElementType" }); yield return new PropertySetInfo("Pset_ElementSize", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcPositiveLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcPositiveLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcDistributionChamberElement", "IfcEnergyConversionDevice", "IfcFlowController", "IfcFlowMovingDevice", "IfcFlowStorageDevice", "IfcFlowTerminal", "IfcFlowTreatmentDevice", "IfcDistributionChamberElementType", "IfcEnergyConversionDeviceType", "IfcFlowControllerType", "IfcFlowMovingDeviceType", "IfcFlowStorageDeviceType", "IfcFlowTerminalType", "IfcFlowTreatmentDeviceType" }); yield return new PropertySetInfo("Pset_EmbeddedTrack", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasDrainage", "IfcBoolean") { Definition = "Indicates whether the infrastructure element has drainage embedded or not."}, new SingleValuePropertyType("IsAccessibleByVehicle", "IfcBoolean") { Definition = "Indicates whether the element is accessible by a vehicle or not."}, new SingleValuePropertyType("PermissibleRoadLoad", "IfcMassMeasure") { Definition = "Permissible traffic load for the road design."} }, new [] { "IfcSlab", "IfcSlabType" }); - yield return new PropertySetInfo("Pset_EnergyRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("EnergyConsumption", "IfcEnergyMeasure") { Definition = "Annual energy consumption requirement"}, new SingleValuePropertyType("EnergyConversionEfficiency", "IfcRatioMeasure") { Definition = "Measure of the efficiency of conversion of fuel energy to mechanical energy"}, new SingleValuePropertyType("EnergySourceLabel", "IfcLabel") { Definition = "Type of energy source e.g. Electricity, Diesel, LPG etc. utilised by the element."}, new SingleValuePropertyType("PowerDemand", "IfcPowerMeasure") { Definition = "Power demand of the element"} }, new [] { "IfcDistributionElement", "IfcDistributionElementType", "IfcTransportationDevice", "IfcTransportationDeviceType", "IfcDistributionElementType", "IfcDistributionElement", "IfcTransportationDeviceType", "IfcTransportationDevice" }); + yield return new PropertySetInfo("Pset_EnergyRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("EnergyConsumption", "IfcEnergyMeasure") { Definition = "Annual energy consumption requirement"}, new SingleValuePropertyType("EnergyConversionEfficiency", "IfcRatioMeasure") { Definition = "Measure of the efficiency of conversion of fuel energy to mechanical energy"}, new SingleValuePropertyType("EnergySourceLabel", "IfcLabel") { Definition = "Type of energy source e.g. Electricity, Diesel, LPG etc. utilised by the element."}, new SingleValuePropertyType("PowerDemand", "IfcPowerMeasure") { Definition = "Power demand of the element"} }, new [] { "IfcDistributionElement", "IfcTransportationDevice", "IfcDistributionElementType", "IfcTransportationDeviceType" }); yield return new PropertySetInfo("Pset_EngineTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("EnergySource", new [] { "BIFUEL", "BIODIESEL", "DIESEL", "GASOLINE", "HYDROGEN", "NATURALGAS", "PROPANE", "SEWAGEGAS", "UNKNOWN", "OTHER", "UNSET" } ) { Definition = "Enumeration defining the energy source or fuel cumbusted."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcEngine", "IfcEngineType" }); - yield return new PropertySetInfo("Pset_EnvironmentalCondition", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumAtmosphericPressure", "IfcPressureMeasure") { Definition = "Maximum level of atmospheric pressure that the equipment can operate effectively in."}, new SingleValuePropertyType("MaximumRainIntensity", "IfcReal") { Definition = "Maximum level of rain intensity that the equipment can operate effectively in. It is usually measured in millimeter per hour (mm/h)."}, new SingleValuePropertyType("MaximumSolarRadiation", "IfcReal") { Definition = "Maximum level of solar irradiance that the equipment can operate effectively in. This is usually tested and measured by a national or international standard. The value indicates power density measured in watt per square meter (w/m2)."}, new SingleValuePropertyType("MaximumWindSpeed", "IfcLinearVelocityMeasure") { Definition = "Maximum resistance to wind load exposure."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new SingleValuePropertyType("ReferenceAirRelativeHumidity", "IfcNormalisedRatioMeasure") { Definition = "Measurement of the ratio of water vapor in the air."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."}, new SingleValuePropertyType("SaltMistLevel", "IfcLabel") { Definition = "Maximum level of salt mist that the equipment can operate effectively in. It is provided according to an international or national standard."}, new SingleValuePropertyType("SeismicResistance", "IfcReal") { Definition = "Maximum magnitude of earthquake that the equipment complies with. The value indicates earthquake intensity measured in Richter scale."}, new SingleValuePropertyType("SmokeLevel", "IfcLabel") { Definition = "Maximum level of smoke that the equipment complies with. It is provided according to an international or national standard."}, new SingleValuePropertyType("StorageTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowed storage temperature range that the element complies with."} }, new [] { "IfcElement", "IfcElementType" }); - yield return new PropertySetInfo("Pset_EnvironmentalEmissions", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarbonDioxideEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of carbon dioxide"}, new SingleValuePropertyType("NitrogenOxidesEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of nitrogen oxides"}, new SingleValuePropertyType("NoiseEmissions", "IfcSoundPowerLevelMeasure") { Definition = "Level of sound emission"}, new SingleValuePropertyType("ParticulateMatterEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of particulate matter"}, new SingleValuePropertyType("SulphurDioxideEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of sulphur dioxide"} }, new [] { "IfcDistributionElement", "IfcDistributionElementType", "IfcTransportationDevice", "IfcTransportationDeviceType", "IfcDistributionElementType", "IfcDistributionElement", "IfcTransportationDeviceType", "IfcTransportationDevice" }); + yield return new PropertySetInfo("Pset_EnvironmentalCondition", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumAtmosphericPressure", "IfcPressureMeasure") { Definition = "Maximum level of atmospheric pressure that the equipment can operate effectively in."}, new SingleValuePropertyType("MaximumRainIntensity", "IfcReal") { Definition = "Maximum level of rain intensity that the equipment can operate effectively in. It is usually measured in millimeter per hour (mm/h)."}, new SingleValuePropertyType("MaximumSolarRadiation", "IfcReal") { Definition = "Maximum level of solar irradiance that the equipment can operate effectively in. This is usually tested and measured by a national or international standard. The value indicates power density measured in watt per square meter (w/m2)."}, new SingleValuePropertyType("MaximumWindSpeed", "IfcLinearVelocityMeasure") { Definition = "Maximum resistance to wind load exposure."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally.\n\nAllowable operation ambient air temperature range."}, new SingleValuePropertyType("ReferenceAirRelativeHumidity", "IfcNormalisedRatioMeasure") { Definition = "Measurement of the ratio of water vapor in the air."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."}, new SingleValuePropertyType("SaltMistLevel", "IfcLabel") { Definition = "Maximum level of salt mist that the equipment can operate effectively in. It is provided according to an international or national standard."}, new SingleValuePropertyType("SeismicResistance", "IfcReal") { Definition = "Maximum magnitude of earthquake that the equipment complies with. The value indicates earthquake intensity measured in Richter scale."}, new SingleValuePropertyType("SmokeLevel", "IfcLabel") { Definition = "Maximum level of smoke that the equipment complies with. It is provided according to an international or national standard."}, new SingleValuePropertyType("StorageTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowed storage temperature range that the element complies with."} }, new [] { "IfcElement", "IfcElementType" }); + yield return new PropertySetInfo("Pset_EnvironmentalEmissions", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarbonDioxideEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of carbon dioxide"}, new SingleValuePropertyType("NitrogenOxidesEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of nitrogen oxides"}, new SingleValuePropertyType("NoiseEmissions", "IfcSoundPowerLevelMeasure") { Definition = "Level of sound emission"}, new SingleValuePropertyType("ParticulateMatterEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of particulate matter"}, new SingleValuePropertyType("SulphurDioxideEmissions", "IfcMassFlowRateMeasure") { Definition = "Rate of emission of sulphur dioxide"} }, new [] { "IfcDistributionElement", "IfcTransportationDevice", "IfcDistributionElementType", "IfcTransportationDeviceType" }); yield return new PropertySetInfo("Pset_EnvironmentalImpactIndicators", new IPropertyTypeInfo[] { new SingleValuePropertyType("AtmosphericAcidificationPerUnit", "IfcMassMeasure") { Definition = "Quantity of gases responsible for the atmospheric acidification calculated in equivalent SO2"}, new SingleValuePropertyType("ClimateChangePerUnit", "IfcMassMeasure") { Definition = "Quantity of greenhouse gases emitted calculated in equivalent CO2"}, new SingleValuePropertyType("EutrophicationPerUnit", "IfcMassMeasure") { Definition = "Quantity of eutrophicating compounds calculated in equivalent PO4"}, new SingleValuePropertyType("ExpectedServiceLife", "IfcTimeMeasure") { Definition = "Expected service life in years."}, new SingleValuePropertyType("FunctionalUnitReference", "IfcLabel") { Definition = "Reference to a database or a classification"}, new SingleValuePropertyType("HazardousWastePerUnit", "IfcMassMeasure") { Definition = "Quantity of hazardous waste generated"}, new SingleValuePropertyType("IndicatorsUnit", "IfcText") { Definition = "The unit of the quantity the environmental indicators values are related with."}, new SingleValuePropertyType("InertWastePerUnit", "IfcMassMeasure") { Definition = "Quantity of inert waste generated"}, new EnumerationPropertyType("LifeCyclePhase", new [] { "ACQUISITION", "CRADLETOSITE", "DECONSTRUCTION", "DISPOSAL", "DISPOSALTRANSPORT", "GROWTH", "INSTALLATION", "MAINTENANCE", "MANUFACTURE", "OCCUPANCY", "OPERATION", "PROCUREMENT", "PRODUCTION", "PRODUCTIONTRANSPORT", "RECOVERY", "REFURBISHMENT", "REPAIR", "REPLACEMENT", "TRANSPORT", "USAGE", "WASTE", "WHOLELIFECYCLE", "USERDEFINED", "NOTDEFINED" } ) { Definition = "The whole life cycle or only a given phase from which environmental data are valid."}, new SingleValuePropertyType("NonHazardousWastePerUnit", "IfcMassMeasure") { Definition = "Quantity of non hazardous waste generated"}, new SingleValuePropertyType("NonRenewableEnergyConsumptionPerUnit", "IfcEnergyMeasure") { Definition = "Quantity of non-renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("PhotochemicalOzoneFormationPerUnit", "IfcMassMeasure") { Definition = "Quantity of gases creating the photochemical ozone calculated in equivalent ethylene"}, new SingleValuePropertyType("RadioactiveWastePerUnit", "IfcMassMeasure") { Definition = "Quantity of radioactive waste generated"}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RenewableEnergyConsumptionPerUnit", "IfcEnergyMeasure") { Definition = "Quantity of renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("ResourceDepletionPerUnit", "IfcMassMeasure") { Definition = "Quantity of resources used calculated in equivalent antimony"}, new SingleValuePropertyType("StratosphericOzoneLayerDestructionPerUnit", "IfcMassMeasure") { Definition = "Quantity of gases destroying the stratospheric ozone layer calculated in equivalent CFC-R11"}, new SingleValuePropertyType("TotalPrimaryEnergyConsumptionPerUnit", "IfcEnergyMeasure") { Definition = "Quantity of energy used as defined in ISO21930:2007."}, new SingleValuePropertyType("WaterConsumptionPerUnit", "IfcVolumeMeasure") { Definition = "Quantity of water used."} }, new [] { "IfcElement", "IfcElementType" }); - yield return new PropertySetInfo("Pset_EnvironmentalImpactValues", new IPropertyTypeInfo[] { new SingleValuePropertyType("AtmosphericAcidification", "IfcMassMeasure") { Definition = "Quantity of gases responsible for the atmospheric acidification calculated in equivalent SO2."}, new SingleValuePropertyType("ClimateChange", "IfcMassMeasure") { Definition = "Quantity of greenhouse gases emitted calculated in equivalent CO2."}, new SingleValuePropertyType("Duration", "IfcDuration") { Definition = "Duration."}, new SingleValuePropertyType("Eutrophication", "IfcMassMeasure") { Definition = "Quantity of eutrophicating compounds calculated in equivalent PO4."}, new SingleValuePropertyType("HazardousWaste", "IfcMassMeasure") { Definition = "Quantity of hazardous waste generated."}, new SingleValuePropertyType("InertWaste", "IfcMassMeasure") { Definition = "Quantity of inert waste generated ."}, new SingleValuePropertyType("LeadInTime", "IfcDuration") { Definition = "Lead in time before start of process."}, new SingleValuePropertyType("LeadOutTime", "IfcDuration") { Definition = "Lead out time after end of process."}, new SingleValuePropertyType("NonHazardousWaste", "IfcMassMeasure") { Definition = "Quantity of non hazardous waste generated."}, new SingleValuePropertyType("NonRenewableEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of non-renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("PhotochemicalOzoneFormation", "IfcMassMeasure") { Definition = "Quantity of gases creating the photochemical ozone calculated in equivalent ethylene."}, new SingleValuePropertyType("RadioactiveWaste", "IfcMassMeasure") { Definition = "Quantity of radioactive waste generated."}, new SingleValuePropertyType("RenewableEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("ResourceDepletion", "IfcMassMeasure") { Definition = "Quantity of resources used calculated in equivalent antimony."}, new SingleValuePropertyType("StratosphericOzoneLayerDestruction", "IfcMassMeasure") { Definition = "Quantity of gases destroying the stratospheric ozone layer calculated in equivalent CFC-R11."}, new SingleValuePropertyType("TotalPrimaryEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of energy used as defined in ISO21930:2007."}, new SingleValuePropertyType("WaterConsumption", "IfcVolumeMeasure") { Definition = "Quantity of water used."} }, new [] { "IfcElement", "IfcElementType" }); + yield return new PropertySetInfo("Pset_EnvironmentalImpactValues", new IPropertyTypeInfo[] { new SingleValuePropertyType("AtmosphericAcidification", "IfcMassMeasure") { Definition = "Quantity of gases responsible for the atmospheric acidification calculated in equivalent SO2."}, new SingleValuePropertyType("ClimateChange", "IfcMassMeasure") { Definition = "Quantity of greenhouse gases emitted calculated in equivalent CO2."}, new SingleValuePropertyType("Duration", "IfcDuration") { Definition = "Duration.\n\nDuration of process."}, new SingleValuePropertyType("Eutrophication", "IfcMassMeasure") { Definition = "Quantity of eutrophicating compounds calculated in equivalent PO4."}, new SingleValuePropertyType("HazardousWaste", "IfcMassMeasure") { Definition = "Quantity of hazardous waste generated."}, new SingleValuePropertyType("InertWaste", "IfcMassMeasure") { Definition = "Quantity of inert waste generated ."}, new SingleValuePropertyType("LeadInTime", "IfcDuration") { Definition = "Lead in time before start of process."}, new SingleValuePropertyType("LeadOutTime", "IfcDuration") { Definition = "Lead out time after end of process."}, new SingleValuePropertyType("NonHazardousWaste", "IfcMassMeasure") { Definition = "Quantity of non hazardous waste generated."}, new SingleValuePropertyType("NonRenewableEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of non-renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("PhotochemicalOzoneFormation", "IfcMassMeasure") { Definition = "Quantity of gases creating the photochemical ozone calculated in equivalent ethylene."}, new SingleValuePropertyType("RadioactiveWaste", "IfcMassMeasure") { Definition = "Quantity of radioactive waste generated."}, new SingleValuePropertyType("RenewableEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of renewable energy used as defined in ISO21930:2007"}, new SingleValuePropertyType("ResourceDepletion", "IfcMassMeasure") { Definition = "Quantity of resources used calculated in equivalent antimony."}, new SingleValuePropertyType("StratosphericOzoneLayerDestruction", "IfcMassMeasure") { Definition = "Quantity of gases destroying the stratospheric ozone layer calculated in equivalent CFC-R11."}, new SingleValuePropertyType("TotalPrimaryEnergyConsumption", "IfcEnergyMeasure") { Definition = "Quantity of energy used as defined in ISO21930:2007."}, new SingleValuePropertyType("WaterConsumption", "IfcVolumeMeasure") { Definition = "Quantity of water used."} }, new [] { "IfcElement", "IfcElementType" }); yield return new PropertySetInfo("Pset_EvaporativeCoolerPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcEvaporativeCooler" }); - yield return new PropertySetInfo("Pset_EvaporativeCoolerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "CounterFlow: Air and water flow enter in different directions.\nCrossFlow: Air and water flow are perpendicular.\nParallelFlow: air and water flow enter in same directions."}, new SingleValuePropertyType("HeatExchangeArea", "IfcAreaMeasure") { Definition = "Heat exchange area."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."} }, new [] { "IfcEvaporativeCooler", "IfcEvaporativeCoolerType" }); + yield return new PropertySetInfo("Pset_EvaporativeCoolerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the basic flow arrangements for the heat exchanger or cooler tower:COUNTERFLOW: Air and water flow enter in different directions.\nCROSSFLOW: Air and water flow are perpendicular.\nPARALLELFLOW: Air and water flow enter in same directions.\nMULTIPASS: Multipass flow heat exchanger arrangement. \nOTHER: Other type of heat exchanger flow arrangement not defined above."}, new SingleValuePropertyType("HeatExchangeArea", "IfcAreaMeasure") { Definition = "Heat exchange area."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."} }, new [] { "IfcEvaporativeCooler", "IfcEvaporativeCoolerType" }); yield return new PropertySetInfo("Pset_EvaporatorPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcEvaporator" }); yield return new PropertySetInfo("Pset_EvaporatorTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("EvaporatorCoolant", new [] { "BRINE", "GLYCOL", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The fluid used for the coolant in the evaporator."}, new EnumerationPropertyType("EvaporatorMediumType", new [] { "COLDAIR", "COLDLIQUID", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "ColdLiquid: Evaporator is using liquid type of fluid to exchange heat with refrigerant.\nColdAir: Evaporator is using air to exchange heat with refrigerant."}, new SingleValuePropertyType("ExternalSurfaceArea", "IfcAreaMeasure") { Definition = "External surface area (both primary and secondary area)."}, new SingleValuePropertyType("InternalRefrigerantVolume", "IfcVolumeMeasure") { Definition = "Internal volume of object (refrigerant side)."}, new SingleValuePropertyType("InternalSurfaceArea", "IfcAreaMeasure") { Definition = "Internal surface area."}, new SingleValuePropertyType("InternalWaterVolume", "IfcVolumeMeasure") { Definition = "Internal volume of object (water side)."}, new SingleValuePropertyType("NominalHeatTransferArea", "IfcAreaMeasure") { Definition = "Nominal heat transfer surface area associated with nominal overall heat transfer coefficient."}, new SingleValuePropertyType("NominalHeatTransferCoefficient", "IfcThermalTransmittanceMeasure") { Definition = "Nominal overall heat transfer coefficient associated with nominal heat transfer area."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("RefrigerantClass", new [] { "AMMONIA", "CFC", "CO2", "H2O", "HCFC", "HFC", "HYDROCARBONS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Refrigerant class used by the object.\nCFC: Chlorofluorocarbons.\nHCFC: Hydrochlorofluorocarbons.\nHFC: Hydrofluorocarbons."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcEvaporator", "IfcEvaporatorType" }); yield return new PropertySetInfo("Pset_FanCentrifugal", new IPropertyTypeInfo[] { new EnumerationPropertyType("DirectionOfRotation", new [] { "CLOCKWISE", "COUNTERCLOCKWISE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The direction of the centrifugal fan wheel rotation when viewed from the drive side of the fan.CLOCKWISE: Clockwise.\nCOUNTERCLOCKWISE: Counter-clockwise.\nOTHER: Other type of fan rotation."}, new EnumerationPropertyType("DischargePosition", new [] { "BOTTOMANGULARDOWN", "BOTTOMANGULARUP", "BOTTOMHORIZONTAL", "DOWNBLAST", "TOPANGULARDOWN", "TOPANGULARUP", "TOPHORIZONTAL", "UPBLAST", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Centrifugal fan discharge position.TOPHORIZONTAL: Top horizontal discharge.\nTOPANGULARDOWN: Top angular down discharge.\nDOWNBLAST: Downblast discharge.\nBOTTOMANGULARDOWN: Bottom angular down discharge.\nBOTTOMHORIZONTAL: Bottom horizontal discharge.\nBOTTOMANGULARUP: Bottom angular up discharge.\nUPBLAST: Upblast discharge.\nTOPANGULARUP: Top angular up discharge.\nOTHER: Other type of fan arrangement."}, new EnumerationPropertyType("FanArrangement", new [] { "ARRANGEMENT1", "ARRANGEMENT10", "ARRANGEMENT2", "ARRANGEMENT3", "ARRANGEMENT4", "ARRANGEMENT7", "ARRANGEMENT8", "ARRANGEMENT9", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the fan and motor drive arrangement as defined by AMCA.ARRANGEMENT1: Arrangement 1.\nARRANGEMENT2: Arrangement 2.\nARRANGEMENT3: Arrangement 3.\nARRANGEMENT4: Arrangement 4.\nARRANGEMENT7: Arrangement 7.\nARRANGEMENT8: Arrangement 8.\nARRANGEMENT9: Arrangement 9.\nARRANGEMENT10: Arrangement 10.\nOTHER: Other type of fan drive arrangement."} }, new [] { "IfcFan", "IfcFan", "IfcFan", "IfcFan", "IfcFanType", "IfcFanType", "IfcFanType", "IfcFanType" }); yield return new PropertySetInfo("Pset_FanOccurrence", new IPropertyTypeInfo[] { new EnumerationPropertyType("ApplicationOfFan", new [] { "COOLINGTOWER", "EXHAUSTAIR", "RETURNAIR", "SUPPLYAIR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The functional application of the fan.SupplyAir: Supply air fan.\nReturnAir: Return air fan.\nExhaustAir: Exhaust air fan.\nOther: Other type of application not defined above."}, new EnumerationPropertyType("CoilPosition", new [] { "BLOWTHROUGH", "DRAWTHROUGH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the relationship between a fan and a coil.DrawThrough: Fan located downstream of the coil.\nBlowThrough: Fan located upstream of the coil."}, new EnumerationPropertyType("DischargeType", new [] { "DAMPER", "DUCT", "LOUVER", "SCREEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the type of connection at the fan discharge.Duct: Discharge into ductwork.\nScreen: Discharge into screen outlet.\nLouver: Discharge into a louver.\nDamper: Discharge into a damper."}, new EnumerationPropertyType("FanMountingType", new [] { "CONCRETEPAD", "DUCTMOUNTED", "FIELDERECTEDCURB", "MANUFACTUREDCURB", "SUSPENDED", "WALLMOUNTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the method of mounting the fan in the building."}, new SingleValuePropertyType("FractionOfMotorHeatToAirStream", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the motor heat released into the fluid flow."}, new SingleValuePropertyType("ImpellerDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of object - used to scale performance of geometrically similar objects."}, new EnumerationPropertyType("MotorPosition", new [] { "INAIRSTREAM", "OUTOFAIRSTREAM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the location of the motor relative to the air stream.InAirStream: Fan motor is in the air stream.\nOutOfAirStream: Fan motor is out of the air stream."} }, new [] { "IfcFan" }); yield return new PropertySetInfo("Pset_FanPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcFan" }); - yield return new PropertySetInfo("Pset_FanTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CapacityControlType", new [] { "BLADEPITCHANGLE", "DISCHARGEDAMPER", "INLETVANE", "TWOSPEED", "VARIABLESPEEDDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "InletVane: Control by adjusting inlet vane.\nVariableSpeedDrive: Control by variable speed drive.\nBladePitchAngle: Control by adjusting blade pitch angle.\nTwoSpeed: Control by switch between high and low speed.\nDischargeDamper: Control by modulating discharge damper."}, new EnumerationPropertyType("MotorDriveType", new [] { "BELTDRIVE", "COUPLING", "DIRECTDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Motor drive type:\nDIRECTDRIVE: Direct drive.\nBELTDRIVE: Belt drive.\nCOUPLING: Coupling.\nOTHER: Other type of motor drive.\nUNKNOWN: Unknown motor drive type."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NominalPowerRate", "IfcPowerMeasure") { Definition = "Nominal fan power rate."}, new SingleValuePropertyType("NominalRotationSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Rotational speed of the object under nominal conditions."}, new SingleValuePropertyType("NominalStaticPressure", "IfcPressureMeasure") { Definition = "The static pressure within the air stream that the fan must overcome to insure designed circulation of air."}, new SingleValuePropertyType("NominalTotalPressure", "IfcPressureMeasure") { Definition = "Nominal total pressure rise across the fan."}, new SingleValuePropertyType("OperationalCriteria", "IfcTimeMeasure") { Definition = "Time of operation at maximum operational ambient air temperature."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFan", "IfcFanType" }); + yield return new PropertySetInfo("Pset_FanTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CapacityControlType", new [] { "BLADEPITCHANGLE", "DISCHARGEDAMPER", "INLETVANE", "TWOSPEED", "VARIABLESPEEDDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "InletVane: Control by adjusting inlet vane.\nVariableSpeedDrive: Control by variable speed drive.\nBladePitchAngle: Control by adjusting blade pitch angle.\nTwoSpeed: Control by switch between high and low speed.\nDischargeDamper: Control by modulating discharge damper."}, new EnumerationPropertyType("MotorDriveType", new [] { "BELTDRIVE", "COUPLING", "DIRECTDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Motor drive type:\nDIRECTDRIVE: Direct drive.\nBELTDRIVE: Belt drive.\nCOUPLING: Coupling.\nOTHER: Other type of motor drive.\nUNKNOWN: Unknown motor drive type."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NominalPowerRate", "IfcPowerMeasure") { Definition = "Nominal fan power rate."}, new SingleValuePropertyType("NominalRotationSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Rotational speed of the object under nominal conditions.\n\nNominal fan wheel speed."}, new SingleValuePropertyType("NominalStaticPressure", "IfcPressureMeasure") { Definition = "The static pressure within the air stream that the fan must overcome to insure designed circulation of air."}, new SingleValuePropertyType("NominalTotalPressure", "IfcPressureMeasure") { Definition = "Nominal total pressure rise across the fan."}, new SingleValuePropertyType("OperationalCriteria", "IfcTimeMeasure") { Definition = "Time of operation at maximum operational ambient air temperature."}, new SingleValuePropertyType("OperationTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable operation ambient air temperature range."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFan", "IfcFanType" }); yield return new PropertySetInfo("Pset_FastenerRailWeld", new IPropertyTypeInfo[] { new EnumerationPropertyType("AssemblyPlace", new [] { "FACTORY", "OFFSITE", "SITE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining where the assembly is intended to take place, either in a factory, other offsite location or on the building site."}, new SingleValuePropertyType("IsLiftingBracket", "IfcBoolean") { Definition = "Indicates whether the connection is done between rail with different height (TRUE) or with same height (FALSE)."}, new EnumerationPropertyType("JointRelativePosition", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the relative position of the joint, which lies in the left or right rail or in the middle, or in combination. The left rail is to the left as facing in the direction of increasing stationing values, and the right rail is to the right."}, new SingleValuePropertyType("TemperatureDuringInstallation", "IfcThermodynamicTemperatureMeasure") { Definition = "Normalised working temperature."} }, new [] { "IfcFastener", "IfcFastenerType" }); yield return new PropertySetInfo("Pset_FastenerWeld", new IPropertyTypeInfo[] { new SingleValuePropertyType("DeepPenetrationThroatThickness", "IfcPositiveLengthMeasure") { Definition = "Nominal throat thickness or effective throat thickness to which a certain amount of fusion penetration is added.REFERENCE Symbol s according to ISO 2553:2019."}, new SingleValuePropertyType("Intermittent", "IfcBoolean") { Definition = "If fillet weld, intermittent or not"}, new SingleValuePropertyType("NominalThroatThickness", "IfcPositiveLengthMeasure") { Definition = "Design value of the height of the largest isosceles triangle that can be inscribed in the section of a fillet weld.REFERENCE Symbol a according to ISO 2553:2019."}, new SingleValuePropertyType("NumberOfWeldElements", "IfcCountMeasure") { Definition = "Number of weld elements.REFERENCE Symbol n according to ISO 2553:2019."}, new SingleValuePropertyType("Process", "IfcInteger") { Definition = "Reference number of the welding process according to ISO 4063, an up to three digits long code"}, new SingleValuePropertyType("ProcessName", "IfcLabel") { Definition = "Name of the welding process. Alternative to the numeric Process property."}, new SingleValuePropertyType("Staggered", "IfcBoolean") { Definition = "If intermittent weld, staggered or not"}, new SingleValuePropertyType("Surface1", "IfcLabel") { Definition = "Aspect of weld seam surface, i.e. 'plane', 'curved' or 'hollow'. Combined welds are given by two corresponding symbols analogous to Type1 and Type2."}, new SingleValuePropertyType("Surface2", "IfcLabel") { Definition = "See Surface1."}, new SingleValuePropertyType("Type1", "IfcLabel") { Definition = "Type of weld seam according to ISO 2553. Note, combined welds are given by two corresponding symbols in the direction of the normal axis of the coordinate system. For example, an X weld is specified by Type1 = 'V' and Type2 = 'V'."}, new SingleValuePropertyType("Type2", "IfcLabel") { Definition = "See Type1."}, new SingleValuePropertyType("WeldDiameter", "IfcPositiveLengthMeasure") { Definition = "Dimension of the required hole diameter at the faying surface, or required spot weld diameter at the faying surface, or required stud diameter.REFERENCE Symbol d according to ISO 2553:2019."}, new SingleValuePropertyType("WeldElementLength", "IfcPositiveLengthMeasure") { Definition = "Length of each weld element.REFERENCE Symbol l according to ISO 2553:2019."}, new SingleValuePropertyType("WeldElementSpacing", "IfcPositiveLengthMeasure") { Definition = "Spacing between weld elements (centre to centre)REFERENCE Symbol e according to ISO 2553:2019."}, new SingleValuePropertyType("WeldLegLength", "IfcPositiveLengthMeasure") { Definition = "Distance from the actual or projected intersection of the fusion faces and the toe of a fillet weld, measured across the fusion face.REFERENCE Symbol z according to ISO 2553:2019."}, new SingleValuePropertyType("WeldWidth", "IfcPositiveLengthMeasure") { Definition = "Required elongated hole width at the faying surface or seam weld width at the faying surface.REFERENCE Symbol c according to ISO 2553:2019."} }, new [] { "IfcFastener", "IfcFastenerType" }); - yield return new PropertySetInfo("Pset_FenderCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoefficientOfFriction", "IfcPositiveRatioMeasure") { Definition = "Coefficient of friction value for the fender"}, new SingleValuePropertyType("EnergyAbsorption", "IfcEnergyMeasure") { Definition = "Energy absorption capacity of the element."}, new SingleValuePropertyType("EnergyAbsorptionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on energy absorption"}, new EnumerationPropertyType("FenderType", new [] { "ARCH", "CELL", "CONE", "CYLINDER", "PNEUMATIC" } ) { Definition = "The type of fender"}, new SingleValuePropertyType("MaximumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to maximum design temperature"}, new SingleValuePropertyType("MaxReaction", "IfcForceMeasure") { Definition = "Maximum reaction from the element"}, new SingleValuePropertyType("MaxReactionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on maximum reaction at fender support."}, new SingleValuePropertyType("MinimumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to minimum design temperature"}, new SingleValuePropertyType("VelocityFactorEnergy", "IfcPositiveRatioMeasure") { Definition = "Deviation in energy absorption performance due to strain rate"}, new SingleValuePropertyType("VelocityFactorReaction", "IfcPositiveRatioMeasure") { Definition = "Deviation in reaction due to strain rate"} }, new [] { "IfcImpactProtectionDevice", "IfcImpactProtectionDevice", "IfcImpactProtectionDeviceType", "IfcImpactProtectionDeviceType" }); + yield return new PropertySetInfo("Pset_FenderCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoefficientOfFriction", "IfcPositiveRatioMeasure") { Definition = "Coefficient of friction value for the fender"}, new SingleValuePropertyType("EnergyAbsorption", "IfcEnergyMeasure") { Definition = "Energy absorption capacity of the element."}, new SingleValuePropertyType("EnergyAbsorptionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on energy absorption"}, new EnumerationPropertyType("FenderType", new [] { "ARCH", "CELL", "CONE", "CYLINDER", "PNEUMATIC" } ) { Definition = "The type of fender"}, new SingleValuePropertyType("MaximumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to maximum design temperature"}, new SingleValuePropertyType("MaxReaction", "IfcForceMeasure") { Definition = "Maximum reaction from the element"}, new SingleValuePropertyType("MaxReactionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on maximum reaction at fender support."}, new SingleValuePropertyType("MinimumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to minimum design temperature"}, new SingleValuePropertyType("VelocityFactorEnergy", "IfcPositiveRatioMeasure") { Definition = "Deviation in energy absorption performance due to strain rate"}, new SingleValuePropertyType("VelocityFactorReaction", "IfcPositiveRatioMeasure") { Definition = "Deviation in reaction due to strain rate"} }, new [] { "IfcImpactProtectionDevice", "IfcImpactProtectionDeviceType" }); yield return new PropertySetInfo("Pset_FenderDesignCriteria", new IPropertyTypeInfo[] { new EnumerationPropertyType("AddedMassCoefficientMethod", new [] { "PIANC", "SHIGERU_UEDA", "VASCO_COSTA" } ) { Definition = "Method used to determine the Added Mass Coefficient used for design"}, new SingleValuePropertyType("CoefficientOfFriction", "IfcPositiveRatioMeasure") { Definition = "Coefficient of friction value for the fender"}, new SingleValuePropertyType("EnergyAbsorption", "IfcEnergyMeasure") { Definition = "Energy absorption capacity of the element."}, new SingleValuePropertyType("EnergyAbsorptionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on energy absorption"}, new SingleValuePropertyType("MaximumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to maximum design temperature"}, new SingleValuePropertyType("MaxReaction", "IfcForceMeasure") { Definition = "Maximum reaction from the element"}, new SingleValuePropertyType("MaxReactionTolerance", "IfcPositiveRatioMeasure") { Definition = "Manufacturing tolerance on maximum reaction at fender support."}, new SingleValuePropertyType("MinCompressedFenderHeight", "IfcPositiveLengthMeasure") { Definition = "Minimum height required for a compressed fender to prevent vessels striking the structure"}, new SingleValuePropertyType("MinimumTemperatureFactor", "IfcPositiveRatioMeasure") { Definition = "Deviation in performance due to minimum design temperature"}, new SingleValuePropertyType("VelocityFactorEnergy", "IfcPositiveRatioMeasure") { Definition = "Deviation in energy absorption performance due to strain rate"}, new SingleValuePropertyType("VelocityFactorReaction", "IfcPositiveRatioMeasure") { Definition = "Deviation in reaction due to strain rate"} }, new [] { "IfcSpace", "IfcSpaceType" }); yield return new PropertySetInfo("Pset_FilterPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcFilter" }); yield return new PropertySetInfo("Pset_FilterTypeAirParticleFilter", new IPropertyTypeInfo[] { new EnumerationPropertyType("AirParticleFilterType", new [] { "ADHESIVERESERVOIR", "COARSECELLFOAMS", "COARSEMETALSCREEN", "COARSESPUNGLASS", "ELECTRICALFILTER", "HEPAFILTER", "MEDIUMELECTRETFILTER", "MEDIUMNATURALFIBERFILTER", "MEMBRANEFILTERS", "RENEWABLEMOVINGCURTIANDRYMEDIAFILTER", "ROLLFORM", "ULPAFILTER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A panel dry type extended surface filter is a dry-type air filter with random fiber mats or blankets in the forms of pockets, V-shaped or radial pleats, and include the following:CoarseFilter: Filter with a efficiency lower than 30% for atmosphere dust-spot.\nCoarseMetalScreen: Filter made of metal screen.\nCoarseCellFoams: Filter made of cell foams.\nCoarseSpunGlass: Filter made of spun glass.\nMediumFilter: Filter with an efficiency between 30-98% for atmosphere dust-spot.\nMediumElectretFilter: Filter with fine electret synthetic fibers.\nMediumNaturalFiberFilter: Filter with natural fibers.\nHEPAFilter: High efficiency particulate air filter.\nULPAFilter: Ultra low penetration air filter.\nMembraneFilters: Filter made of membrane for certain pore diameters in flat sheet and pleated form.\nA renewable media with a moving curtain viscous filter are random-fiber media coated with viscous substance in roll form or curtain where fresh media is fed across the face of the filter and the dirty media is rewound onto a roll at the bottom or to into a reservoir:\nRollForm: Viscous filter used in roll form.\nAdhesiveReservoir: Viscous filter used in moving curtain form.\nA renewable moving curtain dry media filter is a random-fiber dry media of relatively high porosity used in moving-curtain(roll) filters.\nAn electrical filter uses electrostatic precipitation to remove and collect particulate contaminants."}, new SingleValuePropertyType("DustHoldingCapacity", "IfcMassMeasure") { Definition = "Maximum filter dust holding capacity."}, new SingleValuePropertyType("FaceSurfaceArea", "IfcAreaMeasure") { Definition = "Face area of filter frame."}, new SingleValuePropertyType("MediaExtendedArea", "IfcAreaMeasure") { Definition = "Total extended media area."}, new SingleValuePropertyType("NominalCountedEfficiency", "IfcReal") { Definition = "Nominal filter efficiency based the particle count concentration before and after the filter against particles with a certain size distribution."}, new SingleValuePropertyType("NominalWeightedEfficiency", "IfcReal") { Definition = "Nominal filter efficiency based the particle weight concentration before and after the filter against particles with a certain size distribution."}, new EnumerationPropertyType("SeparationType", new [] { "BAG", "PLEAT", "TREADSEPARATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Air particulate filter media separation type."} }, new [] { "IfcFilter", "IfcFilterType" }); @@ -1003,36 +1005,36 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_FilterTypeWaterFilter", new IPropertyTypeInfo[] { new EnumerationPropertyType("WaterFilterType", new [] { "FILTRATION_DIATOMACEOUSEARTH", "FILTRATION_SAND", "PURIFICATION_DEIONIZING", "PURIFICATION_REVERSEOSMOSIS", "SOFTENING_ZEOLITE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Further qualifies the type of water filter. Filtration removes undissolved matter; Purification removes dissolved matter; Softening replaces dissolved matter."} }, new [] { "IfcFilter", "IfcFilterType" }); yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeBreechingInlet", new IPropertyTypeInfo[] { new EnumerationPropertyType("BreechingInletType", new [] { "FOURWAY", "TWOWAY", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Defines the type of breeching inlet."}, new EnumerationPropertyType("CouplingType", new [] { "INSTANTANEOUS_FEMALE", "INSTANTANEOUS_MALE", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Defines the type coupling on the inlet of the breeching inlet."}, new SingleValuePropertyType("HasCaps", "IfcBoolean") { Definition = "Does the inlet connection have protective caps."}, new SingleValuePropertyType("InletDiameter", "IfcPositiveLengthMeasure") { Definition = "The inlet diameter of the breeching inlet."}, new SingleValuePropertyType("OutletDiameter", "IfcPositiveLengthMeasure") { Definition = "The outlet diameter of the breeching inlet."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); - yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeFireHydrant", new IPropertyTypeInfo[] { new SingleValuePropertyType("BodyColour", "IfcText"), new SingleValuePropertyType("CapColour", "IfcText"), new SingleValuePropertyType("DischargeFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric rate of fluid discharge."}, new EnumerationPropertyType("FireHydrantType", new [] { "DRYBARREL", "WETBARREL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the range of hydrant types from which the required type can be selected where.DryBarrel: A hydrant that has isolating valves fitted below ground and that may be used where the possibility of water freezing is a consideration.\nWetBarrel: A hydrant that has isolating valves fitted above ground and that may be used where there is no possibility of water freezing."}, new SingleValuePropertyType("FlowClass", "IfcLabel") { Definition = "Alphanumeric indication of the flow class of a hydrant (may be used in connection with or instead of the FlowRate property)."}, new SingleValuePropertyType("HoseConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The size of connections to which a hose may be connected (other than that to be linked to a pumping unit)."}, new SingleValuePropertyType("NumberOfHoseConnections", "IfcCountMeasure") { Definition = "The number of hose connections on the hydrant (excluding the pumper connection)."}, new SingleValuePropertyType("PressureRating", "IfcPressureMeasure") { Definition = "Pressure rating of the object."}, new SingleValuePropertyType("PumperConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The size of a connection to which a fire hose may be connected that is then linked to a pumping unit."}, new SingleValuePropertyType("WaterIsPotable", "IfcBoolean") { Definition = "Indication of whether the water flow from the hydrant is potable (set TRUE) or non potable (set FALSE)."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); - yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeHoseReel", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClassificationAuthority", "IfcLabel") { Definition = "The name of the authority that applies the classification of service to the hose reel (e.g. NFPA/FEMA)."}, new SingleValuePropertyType("ClassOfService", "IfcLabel") { Definition = "A classification of usage of the hose reel that may be applied."}, new SingleValuePropertyType("HoseDiameter", "IfcPositiveLengthMeasure") { Definition = "Notional diameter (bore) of the hose."}, new SingleValuePropertyType("HoseLength", "IfcPositiveLengthMeasure") { Definition = "Notional length of the hose fitted to the hose reel when fully extended."}, new EnumerationPropertyType("HoseNozzleType", new [] { "FOG", "STRAIGHTSTREAM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of nozzle (in terms of spray pattern) fitted to the end of the hose from which the type required may be set."}, new EnumerationPropertyType("HoseReelMountingType", new [] { "CABINET_RECESSED", "CABINET_SEMIRECESSED", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of hose reel mounting from which the type required may be set."}, new EnumerationPropertyType("HoseReelType", new [] { "RACK", "REEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of hose arrangement from which the type required may be set."}, new SingleValuePropertyType("InletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the inlet connection.\nNote that all inlet connections are assumed to be the same size."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); - yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeSprinkler", new IPropertyTypeInfo[] { new EnumerationPropertyType("Activation", new [] { "BULB", "FUSIBLESOLDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined methods of sprinkler activation from which that required may be set."}, new SingleValuePropertyType("ActivationTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature at which the object is designed to activate."}, new EnumerationPropertyType("BulbLiquidColour", new [] { "BLUE", "GREEN", "MAUVE", "ORANGE", "RED", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ), new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object."}, new SingleValuePropertyType("DischargeCoefficient", "IfcReal") { Definition = "The coefficient of flow at the sprinkler."}, new SingleValuePropertyType("DischargeFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric rate of fluid discharge."}, new SingleValuePropertyType("HasDeflector", "IfcBoolean") { Definition = "Indication of whether the sprinkler has a deflector (baffle) fitted to diffuse the discharge on activation (= TRUE) or not (= FALSE)."}, new SingleValuePropertyType("MaximumWorkingPressure", "IfcPressureMeasure") { Definition = "Maximum pressure that the object is manufactured to withstand."}, new SingleValuePropertyType("ResidualFlowingPressure", "IfcPressureMeasure") { Definition = "The residual flowing pressure in the pipeline at which the discharge flow rate is determined."}, new EnumerationPropertyType("Response", new [] { "QUICK", "STANDARD", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined methods of sprinkler response from which that required may be set."}, new EnumerationPropertyType("SprinklerType", new [] { "CEILING", "CONCEALED", "CUTOFF", "PENDANT", "RECESSEDPENDANT", "SIDEWALL", "UPRIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of sprinkler from which the type required may be set."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); + yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeFireHydrant", new IPropertyTypeInfo[] { new SingleValuePropertyType("BodyColour", "IfcText") { Definition = "Colour of the body of the hydrant.Note: Consult local fire regulations for statutory colours that may be required for hydrant bodies in particular circumstances."}, new SingleValuePropertyType("CapColour", "IfcText") { Definition = "Colour of the caps of the hydrant.Note: Consult local fire regulations for statutory colours that may be required for hydrant caps in particular circumstances."}, new SingleValuePropertyType("DischargeFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric rate of fluid discharge."}, new EnumerationPropertyType("FireHydrantType", new [] { "DRYBARREL", "WETBARREL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the range of hydrant types from which the required type can be selected where.DryBarrel: A hydrant that has isolating valves fitted below ground and that may be used where the possibility of water freezing is a consideration.\nWetBarrel: A hydrant that has isolating valves fitted above ground and that may be used where there is no possibility of water freezing."}, new SingleValuePropertyType("FlowClass", "IfcLabel") { Definition = "Alphanumeric indication of the flow class of a hydrant (may be used in connection with or instead of the FlowRate property)."}, new SingleValuePropertyType("HoseConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The size of connections to which a hose may be connected (other than that to be linked to a pumping unit)."}, new SingleValuePropertyType("NumberOfHoseConnections", "IfcCountMeasure") { Definition = "The number of hose connections on the hydrant (excluding the pumper connection)."}, new SingleValuePropertyType("PressureRating", "IfcPressureMeasure") { Definition = "Pressure rating of the object.\n\nMaximum pressure that the hydrant is manufactured to withstand."}, new SingleValuePropertyType("PumperConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The size of a connection to which a fire hose may be connected that is then linked to a pumping unit."}, new SingleValuePropertyType("WaterIsPotable", "IfcBoolean") { Definition = "Indication of whether the water flow from the hydrant is potable (set TRUE) or non potable (set FALSE)."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); + yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeHoseReel", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClassificationAuthority", "IfcLabel") { Definition = "The name of the authority that applies the classification of service to the hose reel (e.g. NFPA/FEMA)."}, new SingleValuePropertyType("ClassOfService", "IfcLabel") { Definition = "A classification of usage of the hose reel that may be applied."}, new SingleValuePropertyType("HoseDiameter", "IfcPositiveLengthMeasure") { Definition = "Notional diameter (bore) of the hose."}, new SingleValuePropertyType("HoseLength", "IfcPositiveLengthMeasure") { Definition = "Notional length of the hose fitted to the hose reel when fully extended."}, new EnumerationPropertyType("HoseNozzleType", new [] { "FOG", "STRAIGHTSTREAM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of nozzle (in terms of spray pattern) fitted to the end of the hose from which the type required may be set."}, new EnumerationPropertyType("HoseReelMountingType", new [] { "CABINET_RECESSED", "CABINET_SEMIRECESSED", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of hose reel mounting from which the type required may be set."}, new EnumerationPropertyType("HoseReelType", new [] { "RACK", "REEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of hose arrangement from which the type required may be set."}, new SingleValuePropertyType("InletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the inlet connection.\nNote that all inlet connections are assumed to be the same size.\n\nConnection to the hose reel."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); + yield return new PropertySetInfo("Pset_FireSuppressionTerminalTypeSprinkler", new IPropertyTypeInfo[] { new EnumerationPropertyType("Activation", new [] { "BULB", "FUSIBLESOLDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined methods of sprinkler activation from which that required may be set."}, new SingleValuePropertyType("ActivationTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature at which the object is designed to activate."}, new EnumerationPropertyType("BulbLiquidColour", new [] { "BLUE", "GREEN", "MAUVE", "ORANGE", "RED", "YELLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The colour of the liquid in the bulb for a bulb activated sprinkler. Note that the liquid colour varies according to the activation temperature requirement of the sprinkler head. Note also that this property does not need to be asserted for quick response activated sprinklers."}, new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nInlet connection to sprinkler."}, new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object.\n\nIndicates the area that the sprinkler is designed to protect."}, new SingleValuePropertyType("DischargeCoefficient", "IfcReal") { Definition = "The coefficient of flow at the sprinkler."}, new SingleValuePropertyType("DischargeFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric rate of fluid discharge."}, new SingleValuePropertyType("HasDeflector", "IfcBoolean") { Definition = "Indication of whether the sprinkler has a deflector (baffle) fitted to diffuse the discharge on activation (= TRUE) or not (= FALSE)."}, new SingleValuePropertyType("MaximumWorkingPressure", "IfcPressureMeasure") { Definition = "Maximum pressure that the object is manufactured to withstand."}, new SingleValuePropertyType("ResidualFlowingPressure", "IfcPressureMeasure") { Definition = "The residual flowing pressure in the pipeline at which the discharge flow rate is determined."}, new EnumerationPropertyType("Response", new [] { "QUICK", "STANDARD", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined methods of sprinkler response from which that required may be set."}, new EnumerationPropertyType("SprinklerType", new [] { "CEILING", "CONCEALED", "CUTOFF", "PENDANT", "RECESSEDPENDANT", "SIDEWALL", "UPRIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of sprinkler from which the type required may be set."} }, new [] { "IfcFireSuppressionTerminal", "IfcFireSuppressionTerminalType" }); yield return new PropertySetInfo("Pset_FittingBend", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendAngle", "IfcPositivePlaneAngleMeasure") { Definition = "The change of direction of flow."}, new SingleValuePropertyType("BendRadius", "IfcPositiveLengthMeasure") { Definition = "The radius of bending if circular arc or zero if sharp bend."} }, new [] { "IfcCableCarrierFitting", "IfcDuctFitting", "IfcPipeFitting", "IfcCableCarrierFittingType", "IfcDuctFittingType", "IfcPipeFittingType" }); yield return new PropertySetInfo("Pset_FittingJunction", new IPropertyTypeInfo[] { new SingleValuePropertyType("JunctionLeftAngle", "IfcPositivePlaneAngleMeasure") { Definition = "The change of direction of flow for the left junction."}, new SingleValuePropertyType("JunctionLeftRadius", "IfcPositiveLengthMeasure") { Definition = "The radius of bending for the left junction."}, new SingleValuePropertyType("JunctionRightAngle", "IfcPositivePlaneAngleMeasure") { Definition = "The change of direction of flow for the right junction where 0 indicates straight segment."}, new SingleValuePropertyType("JunctionRightRadius", "IfcPositiveLengthMeasure") { Definition = "The radius of bending for the right junction where 0 indicates sharp bend."}, new EnumerationPropertyType("JunctionType", new [] { "CROSS", "TEE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of junction. TEE=3 ports, CROSS = 4 ports."} }, new [] { "IfcCableFitting", "IfcDuctFitting", "IfcPipeFitting", "IfcCableCarrierFitting", "IfcCableFittingType", "IfcDuctFittingType", "IfcPipeFittingType", "IfcCableCarrierFittingType" }); yield return new PropertySetInfo("Pset_FittingTransition", new IPropertyTypeInfo[] { new SingleValuePropertyType("EccentricityInY", "IfcLengthMeasure") { Definition = "Distance in y direction between the two points (or vertex points) engaged in the point connection."}, new SingleValuePropertyType("EccentricityInZ", "IfcLengthMeasure") { Definition = "Distance in z direction between the two points (or vertex points) engaged in the point connection."}, new SingleValuePropertyType("NominalLength", "IfcPositiveLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcCableFitting", "IfcDuctFitting", "IfcPipeFitting", "IfcCableCarrierFitting", "IfcCableFittingType", "IfcDuctFittingType", "IfcPipeFittingType", "IfcCableCarrierFittingType" }); yield return new PropertySetInfo("Pset_FlowInstrumentPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcFlowInstrument" }); yield return new PropertySetInfo("Pset_FlowInstrumentTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrumentType" }); - yield return new PropertySetInfo("Pset_FlowInstrumentTypePressureGauge", new IPropertyTypeInfo[] { new SingleValuePropertyType("DisplaySize", "IfcPositiveLengthMeasure") { Definition = "The physical size of the display."}, new EnumerationPropertyType("PressureGaugeType", new [] { "DIAL", "DIGITAL", "MANOMETER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the means by which pressure is displayed."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrumentType" }); - yield return new PropertySetInfo("Pset_FlowInstrumentTypeThermometer", new IPropertyTypeInfo[] { new SingleValuePropertyType("DisplaySize", "IfcPositiveLengthMeasure") { Definition = "The physical size of the display."}, new EnumerationPropertyType("ThermometerType", new [] { "DIAL", "DIGITAL", "STEM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the means by which temperature is displayed."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrumentType" }); + yield return new PropertySetInfo("Pset_FlowInstrumentTypePressureGauge", new IPropertyTypeInfo[] { new SingleValuePropertyType("DisplaySize", "IfcPositiveLengthMeasure") { Definition = "The physical size of the display.\n\nFor a dial pressure gauge it will be the diameter of the dial."}, new EnumerationPropertyType("PressureGaugeType", new [] { "DIAL", "DIGITAL", "MANOMETER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the means by which pressure is displayed."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrumentType" }); + yield return new PropertySetInfo("Pset_FlowInstrumentTypeThermometer", new IPropertyTypeInfo[] { new SingleValuePropertyType("DisplaySize", "IfcPositiveLengthMeasure") { Definition = "The physical size of the display.\n\nIn the case of a stem thermometer, this will be the length of the stem. For a dial thermometer, it will be the diameter of the dial."}, new EnumerationPropertyType("ThermometerType", new [] { "DIAL", "DIGITAL", "STEM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the means by which temperature is displayed."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrumentType" }); yield return new PropertySetInfo("Pset_FlowMeterOccurrence", new IPropertyTypeInfo[] { new EnumerationPropertyType("FlowMeterOurpose", new [] { "MASTER", "SUBMASTER", "SUBMETER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the purpose of the flow meter occurrence."} }, new [] { "IfcFlowMeter" }); yield return new PropertySetInfo("Pset_FlowMeterTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("ReadOutType", new [] { "DIAL", "DIGITAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indication of the form that readout from the meter takes. In the case of a dial read out, this may comprise multiple dials that give a cumulative reading and/or a mechanical odometer."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RemoteReading", "IfcBoolean") { Definition = "Indicates whether the meter has a connection for remote reading through connection of a communication device (set TRUE) or not (set FALSE)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); yield return new PropertySetInfo("Pset_FlowMeterTypeEnergyMeter", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumCurrent", "IfcElectricCurrentMeasure") { Definition = "The maximum allowed current that a device is certified to handle."}, new SingleValuePropertyType("MultipleTarriff", "IfcBoolean") { Definition = "Indicates whether meter has built-in support for multiple tarriffs (variable energy cost rates)."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); - yield return new PropertySetInfo("Pset_FlowMeterTypeGasMeter", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new EnumerationPropertyType("GasType", new [] { "COMMERCIALBUTANE", "COMMERCIALPROPANE", "LIQUEFIEDPETROLEUMGAS", "NATURALGAS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of gas that may be specified."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."}, new SingleValuePropertyType("MaximumPressureLoss", "IfcPressureMeasure") { Definition = "Pressure loss expected across the meter under conditions of maximum flow."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); - yield return new PropertySetInfo("Pset_FlowMeterTypeOilMeter", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); - yield return new PropertySetInfo("Pset_FlowMeterTypeWaterMeter", new IPropertyTypeInfo[] { new EnumerationPropertyType("BackflowPreventerType", new [] { "ANTISIPHONVALVE", "ATMOSPHERICVACUUMBREAKER", "DOUBLECHECKBACKFLOWPREVENTER", "NONE", "PRESSUREVACUUMBREAKER", "REDUCEDPRESSUREBACKFLOWPREVENTER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the type of backflow preventer installed to prevent the backflow of contaminated or polluted water from an irrigation/reticulation system to a potable water supply."}, new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."}, new SingleValuePropertyType("MaximumPressureLoss", "IfcPressureMeasure") { Definition = "Pressure loss expected across the meter under conditions of maximum flow."}, new EnumerationPropertyType("Type", new [] { "COMPOUND", "INFERENTIAL", "PISTON", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A symbol designator with content according to local standards, e.g. 'BycycleCrossing', 'RoadStuds', 'SpeedBump', 'TransverseBar', 'BusStop', 'Chevron', 'Hatched', 'KeepClear', 'BoxJunction', 'EmergencyExit', 'Intersection', 'Junction'"} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); + yield return new PropertySetInfo("Pset_FlowMeterTypeGasMeter", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nInlet and outlet pipe connections to the meter."}, new EnumerationPropertyType("GasType", new [] { "COMMERCIALBUTANE", "COMMERCIALPROPANE", "LIQUEFIEDPETROLEUMGAS", "NATURALGAS", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of gas that may be specified."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."}, new SingleValuePropertyType("MaximumPressureLoss", "IfcPressureMeasure") { Definition = "Pressure loss expected across the meter under conditions of maximum flow."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); + yield return new PropertySetInfo("Pset_FlowMeterTypeOilMeter", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nInlet and outlet pipe connections to the meter."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); + yield return new PropertySetInfo("Pset_FlowMeterTypeWaterMeter", new IPropertyTypeInfo[] { new EnumerationPropertyType("BackflowPreventerType", new [] { "ANTISIPHONVALVE", "ATMOSPHERICVACUUMBREAKER", "DOUBLECHECKBACKFLOWPREVENTER", "NONE", "PRESSUREVACUUMBREAKER", "REDUCEDPRESSUREBACKFLOWPREVENTER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the type of backflow preventer installed to prevent the backflow of contaminated or polluted water from an irrigation/reticulation system to a potable water supply."}, new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nInlet and outlet pipe connections to the meter."}, new SingleValuePropertyType("MaximumFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Maximum rate of flow which the meter is expected to pass."}, new SingleValuePropertyType("MaximumPressureLoss", "IfcPressureMeasure") { Definition = "Pressure loss expected across the meter under conditions of maximum flow."}, new EnumerationPropertyType("Type", new [] { "COMPOUND", "INFERENTIAL", "PISTON", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the allowed values for selection of the flow meter operation type."} }, new [] { "IfcFlowMeter", "IfcFlowMeterType" }); yield return new PropertySetInfo("Pset_FootingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcFooting", "IfcFootingType" }); yield return new PropertySetInfo("Pset_FootingTypePadFooting", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsReinforced", "IfcBoolean") { Definition = "Indicates whether the foundation is reinforced (TRUE) or not (FALSE)."}, new SingleValuePropertyType("LoadBearingCapacity", "IfcPlanarForceMeasure") { Definition = "Maximum load bearing capacity of the floor structure throughtout the storey as designed."} }, new [] { "IfcFooting", "IfcFootingType" }); yield return new PropertySetInfo("Pset_FurnitureTypeChair", new IPropertyTypeInfo[] { new SingleValuePropertyType("HighestSeatingHeight", "IfcPositiveLengthMeasure") { Definition = "The value of seating height of high level if the chair height is adjustable."}, new SingleValuePropertyType("LowestSeatingHeight", "IfcPositiveLengthMeasure") { Definition = "The value of seating height of low level if the chair height is adjustable."}, new SingleValuePropertyType("SeatingHeight", "IfcPositiveLengthMeasure") { Definition = "The value of seating height if the chair height is not adjustable."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); - yield return new PropertySetInfo("Pset_FurnitureTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsBuiltIn", "IfcBoolean") { Definition = "Indicates whether the furniture type is intended to be 'built in' i.e. physically attached to a building or facility (= TRUE) or not i.e. Loose and movable (= FALSE)."}, new SingleValuePropertyType("MainColour", "IfcLabel"), new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("Style", "IfcLabel") { Definition = "Description of the furniture style."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); + yield return new PropertySetInfo("Pset_FurnitureTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsBuiltIn", "IfcBoolean") { Definition = "Indicates whether the furniture type is intended to be 'built in' i.e. physically attached to a building or facility (= TRUE) or not i.e. Loose and movable (= FALSE)."}, new SingleValuePropertyType("MainColour", "IfcLabel") { Definition = "The main colour of the furniture of this type."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence.\n\nThe nominal height of the furniture of this type. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("Style", "IfcLabel") { Definition = "Description of the furniture style."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); yield return new PropertySetInfo("Pset_FurnitureTypeDesk", new IPropertyTypeInfo[] { new SingleValuePropertyType("WorksurfaceArea", "IfcAreaMeasure") { Definition = "The value of the work surface area of the desk."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); yield return new PropertySetInfo("Pset_FurnitureTypeFileCabinet", new IPropertyTypeInfo[] { new SingleValuePropertyType("WithLock", "IfcBoolean") { Definition = "Indicates whether the file cabinet is lockable (= TRUE) or not (= FALSE)."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); yield return new PropertySetInfo("Pset_FurnitureTypeTable", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfChairs", "IfcCountMeasure") { Definition = "Maximum number of chairs that can fit with the table for normal use."}, new SingleValuePropertyType("WorksurfaceArea", "IfcAreaMeasure") { Definition = "The value of the work surface area of the desk."} }, new [] { "IfcFurniture", "IfcFurnitureType" }); yield return new PropertySetInfo("Pset_GateHeadCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("StructuralType", "IfcLabel") { Definition = "Structural type of the object"} }, new [] { "IfcMarinePart" }); yield return new PropertySetInfo("Pset_GeotechnicalAssemblyCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("BoreHolePurpose", new [] { "DEPOSIT", "ENVIRONMENTAL", "FEEDSTOCK", "GEOLOGICAL", "GEOTHERMAL", "HYDROCARBON", "HYDROGEOLOGICAL", "MINERAL", "PEDOLOGICAL", "SITE_INVESTIGATION", "STORAGE", "NOTKNOWN", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Purpose for which the borehole, section or volumetric model was created. (EU Inspire, boreholeML)"}, new SingleValuePropertyType("Limitations", "IfcText") { Definition = "Limitations on usage."}, new SingleValuePropertyType("Methodology", "IfcText") { Definition = "Methodology used to prepare the contents of the geotechnical assembly."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcGeotechnicalAssembly" }); yield return new PropertySetInfo("Pset_GeotechnicalStratumCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsTopographic", "IfcLogical") { Definition = "Is the stratum ever topmost and so a visible topographic feature"}, new SingleValuePropertyType("PiezometricHead", "IfcPositiveLengthMeasure") { Definition = "Pressure head of water content."}, new SingleValuePropertyType("PiezometricPressure", "IfcPressureMeasure") { Definition = "Pressure of water content."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("StratumColour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("Texture", "IfcLabel") { Definition = "Stratum texture"} }, new [] { "IfcGeotechnicalStratum" }); - yield return new PropertySetInfo("Pset_HeatExchangerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "MULTIPASS", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "CounterFlow: Air and water flow enter in different directions.\nCrossFlow: Air and water flow are perpendicular.\nParallelFlow: air and water flow enter in same directions."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcHeatExchanger", "IfcHeatExchangerType" }); + yield return new PropertySetInfo("Pset_HeatExchangerTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("FlowArrangement", new [] { "COUNTERFLOW", "CROSSFLOW", "MULTIPASS", "PARALLELFLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the basic flow arrangements for the heat exchanger or cooler tower:COUNTERFLOW: Air and water flow enter in different directions.\nCROSSFLOW: Air and water flow are perpendicular.\nPARALLELFLOW: Air and water flow enter in same directions.\nMULTIPASS: Multipass flow heat exchanger arrangement. \nOTHER: Other type of heat exchanger flow arrangement not defined above."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcHeatExchanger", "IfcHeatExchangerType" }); yield return new PropertySetInfo("Pset_HeatExchangerTypePlate", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfPlates", "IfcCountMeasure") { Definition = "Number of plates used by the plate heat exchanger."} }, new [] { "IfcHeatExchanger", "IfcHeatExchangerType" }); yield return new PropertySetInfo("Pset_HumidifierPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcHumidifier" }); - yield return new PropertySetInfo("Pset_HumidifierTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("HumidifierApplication", new [] { "FIXED", "PORTABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Humidifier application.Fixed: Humidifier installed in a ducted flow distribution system.\nPortable: Humidifier is not installed in a ducted flow distribution system."}, new EnumerationPropertyType("InternalControl", new [] { "MODULATING", "NONE", "ONOFF", "STEPPED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Internal modulation control."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate."}, new SingleValuePropertyType("NominalMoistureGain", "IfcMassFlowRateMeasure") { Definition = "Nominal rate of water vapor added into the airstream."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object"} }, new [] { "IfcHumidifier", "IfcHumidifierType" }); + yield return new PropertySetInfo("Pset_HumidifierTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("HumidifierApplication", new [] { "FIXED", "PORTABLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Humidifier application.Fixed: Humidifier installed in a ducted flow distribution system.\nPortable: Humidifier is not installed in a ducted flow distribution system."}, new EnumerationPropertyType("InternalControl", new [] { "MODULATING", "NONE", "ONOFF", "STEPPED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Internal modulation control."}, new SingleValuePropertyType("NominalAirFlowRate", "IfcVolumetricFlowRateMeasure") { Definition = "Nominal air flow rate.\n\nNominal rate of air flow into which water vapor is added."}, new SingleValuePropertyType("NominalMoistureGain", "IfcMassFlowRateMeasure") { Definition = "Nominal rate of water vapor added into the airstream."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("WaterRequirement", "IfcVolumetricFlowRateMeasure") { Definition = "Make-up water requirement."}, new SingleValuePropertyType("Weight", "IfcMassMeasure") { Definition = "Total weight of object"} }, new [] { "IfcHumidifier", "IfcHumidifierType" }); yield return new PropertySetInfo("Pset_ImpactProtectionDeviceOccurrenceBumper", new IPropertyTypeInfo[] { new SingleValuePropertyType("BrakingLength", "IfcPositiveLengthMeasure") { Definition = "Length of the braking distance as a design parameter of the bumper occurrence."}, new EnumerationPropertyType("BumperOrientation", new [] { "OPPOSITETOSTATIONDIRECTION", "STATIONDIRECTION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Direction in which the bumper is aligned, e.g. same direction as increasing stationing values or opposite."}, new SingleValuePropertyType("IsRemovableBumper", "IfcBoolean") { Definition = "Indicates if the bumper is removable or not."} }, new [] { "IfcImpactProtectionDevice" }); yield return new PropertySetInfo("Pset_ImpactProtectionDeviceTypeBumper", new IPropertyTypeInfo[] { new SingleValuePropertyType("EnergyAbsorption", "IfcEnergyMeasure") { Definition = "Energy absorption capacity of the element."}, new SingleValuePropertyType("IsAbsorbingEnergy", "IfcBoolean") { Definition = "Indicates whether the bumper absorbs energy or not."}, new SingleValuePropertyType("MaximumLoadRetention", "IfcForceMeasure") { Definition = "Maximum possible impact load retention."} }, new [] { "IfcImpactProtectionDevice", "IfcImpactProtectionDeviceType" }); yield return new PropertySetInfo("Pset_InstallationOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcceptanceDate", "IfcDate") { Definition = "Date on which the element is accepted by the manager or administrator."}, new SingleValuePropertyType("InstallationDate", "IfcDate") { Definition = "Date on which the element is installed."}, new SingleValuePropertyType("PutIntoOperationDate", "IfcDate") { Definition = "Date on which the element is put into operation."} }, new [] { "IfcAsset", "IfcElement", "IfcSystem" }); @@ -1040,11 +1042,11 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_IpNetworkEquipmentPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcCommunicationsAppliance" }); yield return new PropertySetInfo("Pset_JettyCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BentSpacing", "IfcLengthMeasure") { Definition = "Bent (upright) spacing"}, new SingleValuePropertyType("Elevation", "IfcLengthMeasure") { Definition = "Elevation of the entity"}, new EnumerationPropertyType("PierSectionType", new [] { "CLOSED", "OPEN" } ) { Definition = "Whether the structure presents a solid/closed barrier to the passage of water or is open."}, new SingleValuePropertyType("StructuralType", "IfcLabel") { Definition = "Structural type of the object"} }, new [] { "IfcMarineFacility" }); yield return new PropertySetInfo("Pset_JettyDesignCriteria", new IPropertyTypeInfo[] { new SingleValuePropertyType("EquipmentLoading", "IfcForceMeasure") { Definition = "Loading from equipment"}, new SingleValuePropertyType("ExtremeHighWaterLevel", "IfcLengthMeasure") { Definition = "Extreme high water level"}, new SingleValuePropertyType("ExtremeLowWaterLevel", "IfcLengthMeasure") { Definition = "Extreme low water level"}, new SingleValuePropertyType("FlowLoading", "IfcForceMeasure") { Definition = "Flow loading force"}, new SingleValuePropertyType("HighWaterLevel", "IfcLengthMeasure") { Definition = "High water level"}, new SingleValuePropertyType("LowWaterLevel", "IfcLengthMeasure") { Definition = "Low water level"}, new SingleValuePropertyType("ShipLoading", "IfcForceMeasure") { Definition = "Ship loading force"}, new SingleValuePropertyType("UniformlyDistributedLoad", "IfcForceMeasure") { Definition = "Uniformly Distributed Load"}, new SingleValuePropertyType("WaveLoading", "IfcForceMeasure") { Definition = "Wave loading force"} }, new [] { "IfcMarineFacility" }); - yield return new PropertySetInfo("Pset_JunctionBoxTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new EnumerationPropertyType("JunctionBoxMountingType", new [] { "CUT_IN", "FACENAIL", "SIDENAIL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Method of mounting to be adopted for the type of junction box."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NumberOfGangs", "IfcCountMeasure") { Definition = "Number of gangs in the object."}, new EnumerationPropertyType("PlacingType", new [] { "CEILING", "FLOOR", "WALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Location at which the type of junction box can be located."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("ShapeType", new [] { "RECTANGULAR", "ROUND", "SLOT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Shape of the junction box."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcJunctionBox", "IfcJunctionBoxType" }); + yield return new PropertySetInfo("Pset_JunctionBoxTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth.\n\nIt indicates the unobstructed depth available for cable inclusion within the junction box."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new EnumerationPropertyType("JunctionBoxMountingType", new [] { "CUT_IN", "FACENAIL", "SIDENAIL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Method of mounting to be adopted for the type of junction box."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NumberOfGangs", "IfcCountMeasure") { Definition = "Number of gangs in the object.\n\nNumber of slots available for switches/outlets (most commonly 1, 2, 3, or 4)."}, new EnumerationPropertyType("PlacingType", new [] { "CEILING", "FLOOR", "WALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Location at which the type of junction box can be located."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("ShapeType", new [] { "RECTANGULAR", "ROUND", "SLOT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Shape of the junction box."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcJunctionBox", "IfcJunctionBoxType" }); yield return new PropertySetInfo("Pset_JunctionBoxTypeData", new IPropertyTypeInfo[] { new EnumerationPropertyType("DataConnectionType", new [] { "COPPER", "FIBER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the data connection type of the junction box e.g. copper pair, fiber or others."} }, new [] { "IfcJunctionBox", "IfcJunctionBoxType" }); - yield return new PropertySetInfo("Pset_KerbCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CombinedKerbGutter", "IfcBoolean") { Definition = "Indicating the use of a combined kerb and gutter."}, new SingleValuePropertyType("Upstand", "IfcNonNegativeLengthMeasure") { Definition = "The height difference between the two separated surfaces."} }, new [] { "IfcKerb", "IfcKerbType" }); + yield return new PropertySetInfo("Pset_KerbCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CombinedKerbGutter", "IfcBoolean") { Definition = "Indicating the use of a combined kerb and gutter."}, new SingleValuePropertyType("Mountable", "IfcBoolean") { Definition = "Specifies whether the kerb can be readily climbed by a vehicle or not."}, new SingleValuePropertyType("Upstand", "IfcNonNegativeLengthMeasure") { Definition = "The height difference between the two separated surfaces."} }, new [] { "IfcKerb", "IfcKerbType" }); yield return new PropertySetInfo("Pset_KerbStone", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("StoneFinishes", "IfcLabel") { Definition = "Eg. 'Polished', 'Bush Hammered', 'Split', 'Sawn', 'Flamed'"}, new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcKerb", "IfcKerbType" }); - yield return new PropertySetInfo("Pset_LampTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ColourAppearance", "IfcLabel"), new SingleValuePropertyType("ColourRenderingIndex", "IfcInteger"), new SingleValuePropertyType("ColourTemperature", "IfcThermodynamicTemperatureMeasure"), new SingleValuePropertyType("ContributedLuminousFlux", "IfcLuminousFluxMeasure") { Definition = "Luminous flux is a photometric measure of radiant flux, i.e. the volume of light emitted from a light source. Luminous flux is measured either for the interior as a whole or for a part of the interior (partial luminous flux for a solid angle). All other photometric parameters are derivatives of luminous flux. Luminous flux is measured in lumens (lm). The luminous flux is given as a nominal value for each lamp."}, new EnumerationPropertyType("LampBallastType", new [] { "CONVENTIONAL", "ELECTRONIC", "LOWLOSS", "RESISTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of ballast used to stabilise gas discharge by limiting the current during operation and to deliver the necessary striking voltage for starting. Ballasts are needed to operate Discharge Lamps such as Fluorescent, Compact Fluorescent, High-pressure Mercury, Metal Halide and High-pressure Sodium Lamps.\nMagnetic ballasts are chokes which limit the current passing through a lamp connected in series on the principle of self-induction. The resultant current and power are decisive for the efficient operation of the lamp. A specially designed ballast is required for every type of lamp to comply with lamp rating in terms of Luminous Flux, Color Appearance and service life. The two types of magnetic ballasts for fluorescent lamps are KVG Conventional (EC-A series) and VVG Low-loss ballasts (EC-B series). Low-loss ballasts have a higher efficiency, which means reduced ballast losses and a lower thermal load. Electronic ballasts are used to run fluorescent lamps at high frequencies (approx. 35 - 40 kHz)."}, new EnumerationPropertyType("LampCompensationType", new [] { "CAPACITIVE", "INDUCTIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the form of compensation used for power factor correction and radio suppression."}, new SingleValuePropertyType("LampMaintenanceFactor", "IfcReal") { Definition = "Non recoverable losses of luminous flux of a lamp due to lamp depreciation; i.e. the decreasing of light output of a luminaire due to aging and dirt."}, new SingleValuePropertyType("LightEmitterNominalPower", "IfcPowerMeasure") { Definition = "Light emitter nominal power."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcLamp", "IfcLampType" }); + yield return new PropertySetInfo("Pset_LampTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ColourAppearance", "IfcLabel") { Definition = "In both the DIN and CIE standards, artificial light sources are classified in terms of their colour appearance. To the human eye they all appear to be white; the difference can only be detected by direct comparison. Visual performance is not directly affected by differences in colour appearance."}, new SingleValuePropertyType("ColourRenderingIndex", "IfcInteger") { Definition = "The CRI indicates how well a light source renders eight standard colours compared to perfect reference lamp with the same colour temperature. The CRI scale ranges from 1 to 100, with 100 representing perfect rendering properties."}, new SingleValuePropertyType("ColourTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The colour temperature of any source of radiation is defined as the temperature (in Kelvin) of a black-body or Planckian radiator whose radiation has the same chromaticity as the source of radiation. Often the values are only approximate colour temperatures as the black-body radiator cannot emit radiation of every chromaticity value. The colour temperatures of the commonest artificial light sources range from less than 3000K (warm white) to 4000K (intermediate) and over 5000K (daylight)."}, new SingleValuePropertyType("ContributedLuminousFlux", "IfcLuminousFluxMeasure") { Definition = "Luminous flux is a photometric measure of radiant flux, i.e. the volume of light emitted from a light source. Luminous flux is measured either for the interior as a whole or for a part of the interior (partial luminous flux for a solid angle). All other photometric parameters are derivatives of luminous flux. Luminous flux is measured in lumens (lm). The luminous flux is given as a nominal value for each lamp."}, new EnumerationPropertyType("LampBallastType", new [] { "CONVENTIONAL", "ELECTRONIC", "LOWLOSS", "RESISTOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of ballast used to stabilise gas discharge by limiting the current during operation and to deliver the necessary striking voltage for starting. Ballasts are needed to operate Discharge Lamps such as Fluorescent, Compact Fluorescent, High-pressure Mercury, Metal Halide and High-pressure Sodium Lamps.\nMagnetic ballasts are chokes which limit the current passing through a lamp connected in series on the principle of self-induction. The resultant current and power are decisive for the efficient operation of the lamp. A specially designed ballast is required for every type of lamp to comply with lamp rating in terms of Luminous Flux, Color Appearance and service life. The two types of magnetic ballasts for fluorescent lamps are KVG Conventional (EC-A series) and VVG Low-loss ballasts (EC-B series). Low-loss ballasts have a higher efficiency, which means reduced ballast losses and a lower thermal load. Electronic ballasts are used to run fluorescent lamps at high frequencies (approx. 35 - 40 kHz)."}, new EnumerationPropertyType("LampCompensationType", new [] { "CAPACITIVE", "INDUCTIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the form of compensation used for power factor correction and radio suppression."}, new SingleValuePropertyType("LampMaintenanceFactor", "IfcReal") { Definition = "Non recoverable losses of luminous flux of a lamp due to lamp depreciation; i.e. the decreasing of light output of a luminaire due to aging and dirt."}, new SingleValuePropertyType("LightEmitterNominalPower", "IfcPowerMeasure") { Definition = "Light emitter nominal power."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcLamp", "IfcLampType" }); yield return new PropertySetInfo("Pset_LandRegistration", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsPermanentID", "IfcBoolean") { Definition = "Indicates whether the identity assigned to the object is permanent (= TRUE) or temporary (=FALSE)."}, new SingleValuePropertyType("LandID", "IfcIdentifier") { Definition = "Identification number assigned by the statutory registration authority to a land parcel."}, new SingleValuePropertyType("LandTitleID", "IfcIdentifier") { Definition = "Identification number assigned by the statutory registration authority to the title to a land parcel."} }, new [] { "IfcSite" }); yield return new PropertySetInfo("Pset_LightFixtureTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("LightFixtureMountingType", new [] { "CABLESPANNED", "FREESTANDING", "POLE_SIDE", "POLE_TOP", "RECESSED", "SURFACE", "SUSPENDED", "TRACKMOUNTED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of mounting for light fixtures from which that required may be selected."}, new EnumerationPropertyType("LightFixturePlacingType", new [] { "CEILING", "FLOOR", "FURNITURE", "POLE", "WALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of placing specification for light fixtures from which that required may be selected."}, new SingleValuePropertyType("MaintenanceFactor", "IfcReal") { Definition = "The arithmetical allowance made for depreciation of lamps and reflective equipment from their initial values due to dirt, fumes, or age."}, new SingleValuePropertyType("MaximumPlenumSensibleLoad", "IfcPowerMeasure") { Definition = "Maximum or Peak sensible thermal load contributed to return air plenum by the light fixture."}, new SingleValuePropertyType("MaximumSpaceSensibleLoad", "IfcPowerMeasure") { Definition = "Maximum or Peak sensible thermal load contributed to the conditioned space by the light fixture."}, new SingleValuePropertyType("NumberOfSources", "IfcCountMeasure") { Definition = "Number of sources ."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SensibleLoadToRadiant", "IfcPositiveRatioMeasure") { Definition = "Percent of sensible thermal load to radiant heat."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TotalWattage", "IfcPowerMeasure") { Definition = "Wattage on whole lightfitting device with all sources intact."} }, new [] { "IfcLightFixture", "IfcLightFixtureType" }); yield return new PropertySetInfo("Pset_LightFixtureTypeSecurityLighting", new IPropertyTypeInfo[] { new EnumerationPropertyType("Addressablility", new [] { "IMPLEMENTED", "NOTIMPLEMENTED", "UPGRADEABLETO", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of addressability."}, new EnumerationPropertyType("BackupSupplySystem", new [] { "CENTRALBATTERY", "LOCALBATTERY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of backup supply system."}, new SingleValuePropertyType("FixtureHeight", "IfcPositiveLengthMeasure") { Definition = "The height of the fixture, such as the text height of an exit sign."}, new EnumerationPropertyType("PictogramEscapeDirection", new [] { "DOWNARROW", "LEFTARROW", "RIGHTARROW", "UPARROW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The direction of escape pictogram."}, new EnumerationPropertyType("SecurityLightingType", new [] { "BLUEILLUMINATION", "EMERGENCYEXITLIGHT", "SAFETYLIGHT", "WARNINGLIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of security lighting."}, new EnumerationPropertyType("SelfTestFunction", new [] { "CENTRAL", "LOCAL", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of self test function."} }, new [] { "IfcLightFixture", "IfcLightFixtureType" }); @@ -1057,26 +1059,26 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_ManufacturerTypeInformation", new IPropertyTypeInfo[] { new SingleValuePropertyType("ArticleNumber", "IfcIdentifier") { Definition = "Article number or reference that is be applied to a configured product according to a standard scheme for article number definition as defined by the manufacturer. It is often used as the purchasing number."}, new EnumerationPropertyType("AssemblyPlace", new [] { "FACTORY", "OFFSITE", "SITE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining where the assembly is intended to take place, either in a factory, other offsite location or on the building site."}, new SingleValuePropertyType("GlobalTradeItemNumber", "IfcIdentifier") { Definition = "The Global Trade Item Number (GTIN) is an identifier for trade items developed by GS1 (www.gs1.org)."}, new SingleValuePropertyType("Manufacturer", "IfcLabel") { Definition = "The organization that manufactured and/or assembled the item."}, new SingleValuePropertyType("ModelLabel", "IfcLabel") { Definition = "The descriptive model name of the product model (or product line) as assigned by the manufacturer of the manufactured item."}, new SingleValuePropertyType("ModelReference", "IfcLabel") { Definition = "The model number or designator of the product model (or product line) as assigned by the manufacturer of the manufactured item."}, new SingleValuePropertyType("ProductionYear", "IfcLabel") { Definition = "The year of production of the manufactured item."} }, new [] { "IfcElement", "IfcElementType" }); yield return new PropertySetInfo("Pset_MarineFacilityTransportation", new IPropertyTypeInfo[] { new SingleValuePropertyType("BerthCargoWeight", "IfcMassMeasure") { Definition = "Total cargo weight of berths within the facility"}, new SingleValuePropertyType("BerthGrade", "IfcLabel") { Definition = "Berth grade"}, new SingleValuePropertyType("Berths", "IfcCountMeasure") { Definition = "Number of standard berths within the facility"} }, new [] { "IfcMarineFacility" }); yield return new PropertySetInfo("Pset_MarinePartChamberCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("EffectiveChamberSize", "IfcVolumeMeasure") { Definition = "Volumetric measure defining the effective chamber size for operational and design activities."}, new SingleValuePropertyType("StructuralType", "IfcLabel") { Definition = "Structural type of the object"} }, new [] { "IfcMarinePart" }); - yield return new PropertySetInfo("Pset_MarineVehicleCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AboveDeckProjectedWindEnd", "IfcAreaMeasure") { Definition = "End on projected windage area above the main deck"}, new SingleValuePropertyType("AboveDeckProjectedWindSide", "IfcAreaMeasure") { Definition = "Side on projected windage area above the main deck"}, new SingleValuePropertyType("CargoDeadWeight", "IfcMassMeasure") { Definition = "Weight of (bulk) cargo carried"}, new SingleValuePropertyType("Displacement", "IfcMassMeasure") { Definition = "Weight of water displaced by the vessel"}, new SingleValuePropertyType("LaneMeters", "IfcLengthMeasure") { Definition = "Length of lanes accommodating vehicles on roll-on, roll-off vessels"}, new SingleValuePropertyType("LengthBetweenPerpendiculars", "IfcPositiveLengthMeasure") { Definition = "Length of vessel from rudder shaft to crossing point of the bow and the loaded waterline."}, new SingleValuePropertyType("VesselDepth", "IfcLengthMeasure") { Definition = "Depth of the vessel from the main deck to the keel."}, new SingleValuePropertyType("VesselDraft", "IfcLengthMeasure") { Definition = "Depth of vessel from the waterline to the keel (LightShip, Ballasted, Maximum)"} }, new [] { "IfcVehicle", "IfcVehicle", "IfcVehicleType", "IfcVehicleType" }); - yield return new PropertySetInfo("Pset_MarineVehicleDesignCriteria", new IPropertyTypeInfo[] { new SingleValuePropertyType("AllowableHullPressure", "IfcPressureMeasure") { Definition = "Allowable contact pressure between fender and hull"}, new SingleValuePropertyType("SoftnessCoefficient", "IfcPositiveRatioMeasure") { Definition = "Vessel flexibility factor - proportion of impact energy absorbed by the hull."} }, new [] { "IfcVehicle", "IfcVehicle", "IfcVehicleType", "IfcVehicleType" }); - yield return new PropertySetInfo("Pset_MarkerGeneral", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApproachSpeed", "IfcLinearVelocityMeasure") { Definition = "The design speed of trains approaching the signal if different from the line speed."}, new EnumerationPropertyType("MarkerType", new [] { "APPROACHING_MARKER", "CABLE_POST_MARKER", "COMMUNICATION_MODE_CONVERSION_MARKER", "EMU_STOP_POSITION_SIGN", "FOUR_ASPECT_CAB_SIGNAL_CONNECT_SIGN", "FOUR_ASPECT_CAB_SIGNAL_DISCONNECT_SIGN", "LEVEL_CONVERSION_SIGN", "LOCOMOTIVE_STOP_POSITION_SIGN", "RELAY_STATION_SIGN", "RESTRICTION_PLACE_SIGN", "RESTRICTION_PROTECTION_AREA_TERMINAL_SIGN", "RESTRICTION_SIGN", "SECTION_SIGNAL_MARKER", "STOP_SIGN", "TRACK_CIRCUIT_TUNING_ZONE_SIGN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of marker (sign) e.g. stop signal, restriction signal, track circuit tuning zone sign or others specified in PEnum_MarkerType."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); + yield return new PropertySetInfo("Pset_MarineVehicleCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AboveDeckProjectedWindEnd", "IfcAreaMeasure") { Definition = "End on projected windage area above the main deck"}, new SingleValuePropertyType("AboveDeckProjectedWindSide", "IfcAreaMeasure") { Definition = "Side on projected windage area above the main deck"}, new SingleValuePropertyType("CargoDeadWeight", "IfcMassMeasure") { Definition = "Weight of (bulk) cargo carried"}, new SingleValuePropertyType("Displacement", "IfcMassMeasure") { Definition = "Weight of water displaced by the vessel"}, new SingleValuePropertyType("LaneMeters", "IfcLengthMeasure") { Definition = "Length of lanes accommodating vehicles on roll-on, roll-off vessels"}, new SingleValuePropertyType("LengthBetweenPerpendiculars", "IfcPositiveLengthMeasure") { Definition = "Length of vessel from rudder shaft to crossing point of the bow and the loaded waterline."}, new SingleValuePropertyType("VesselDepth", "IfcLengthMeasure") { Definition = "Depth of the vessel from the main deck to the keel."}, new SingleValuePropertyType("VesselDraft", "IfcLengthMeasure") { Definition = "Depth of vessel from the waterline to the keel (LightShip, Ballasted, Maximum)"} }, new [] { "IfcVehicle", "IfcVehicleType" }); + yield return new PropertySetInfo("Pset_MarineVehicleDesignCriteria", new IPropertyTypeInfo[] { new SingleValuePropertyType("AllowableHullPressure", "IfcPressureMeasure") { Definition = "Allowable contact pressure between fender and hull"}, new SingleValuePropertyType("SoftnessCoefficient", "IfcPositiveRatioMeasure") { Definition = "Vessel flexibility factor - proportion of impact energy absorbed by the hull."} }, new [] { "IfcVehicle", "IfcVehicleType" }); + yield return new PropertySetInfo("Pset_MarkerGeneral", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApproachSpeed", "IfcLinearVelocityMeasure") { Definition = "The design speed of trains approaching the signal if different from the line speed."}, new EnumerationPropertyType("MarkerType", new [] { "APPROACHING_MARKER", "CABLE_POST_MARKER", "COMMUNICATION_MODE_CONVERSION_MARKER", "EMU_STOP_POSITION_SIGN", "FOUR_ASPECT_CAB_SIGNAL_CONNECT_SIGN", "FOUR_ASPECT_CAB_SIGNAL_DISCONNECT_SIGN", "LEVEL_CONVERSION_SIGN", "LOCOMOTIVE_STOP_POSITION_SIGN", "RELAY_STATION_SIGN", "RESTRICTION_PLACE_SIGN", "RESTRICTION_PROTECTION_AREA_TERMINAL_SIGN", "RESTRICTION_SIGN", "SECTION_SIGNAL_MARKER", "STOP_SIGN", "TRACK_CIRCUIT_TUNING_ZONE_SIGN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of marker (sign) e.g. stop signal, restriction signal, track circuit tuning zone sign or others specified in PEnum_MarkerType."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence.\n\nThe nominal height of the furniture of this type. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_MarkingLinesCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("DashedLine", "IfcBoolean") { Definition = "State if the line is dashed or continuous"}, new SingleValuePropertyType("DashedLinePattern", "IfcLabel") { Definition = "Indicates the pattern for dashed line types e.g. '3+9'"}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcSurfaceFeature" }); - yield return new PropertySetInfo("Pset_MaterialCombustion", new IPropertyTypeInfo[] { new SingleValuePropertyType("CO2Content", "IfcPositiveRatioMeasure") { Definition = "Carbon dioxide (CO2) content of the products of combustion. This is measured in weight of CO2 per unit weight and is therefore unitless."}, new SingleValuePropertyType("COContent", "IfcPositiveRatioMeasure") { Definition = "Carbon monoxide (CO) content of the products of combustion. This is measured in weight of CO per unit weight and is therefore unitless."}, new SingleValuePropertyType("N20Content", "IfcPositiveRatioMeasure") { Definition = "Nitrous oxide (N2O) content of the products of combustion. This is measured in weight of N2O per unit weight and is therefore unitless."}, new SingleValuePropertyType("SpecificHeatCapacity", "IfcSpecificHeatCapacityMeasure") { Definition = "Defines the specific heat capacity of a material."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MaterialCombustion", new IPropertyTypeInfo[] { new SingleValuePropertyType("CO2Content", "IfcPositiveRatioMeasure") { Definition = "Carbon dioxide (CO2) content of the products of combustion. This is measured in weight of CO2 per unit weight and is therefore unitless."}, new SingleValuePropertyType("COContent", "IfcPositiveRatioMeasure") { Definition = "Carbon monoxide (CO) content of the products of combustion. This is measured in weight of CO per unit weight and is therefore unitless."}, new SingleValuePropertyType("N20Content", "IfcPositiveRatioMeasure") { Definition = "Nitrous oxide (N2O) content of the products of combustion. This is measured in weight of N2O per unit weight and is therefore unitless."}, new SingleValuePropertyType("SpecificHeatCapacity", "IfcSpecificHeatCapacityMeasure") { Definition = "Defines the specific heat capacity of a material.\n\nSpecific heat of the products of combustion: heat energy absorbed per temperature unit."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("MassDensity", "IfcMassDensityMeasure") { Definition = "Material mass density."}, new SingleValuePropertyType("MolecularWeight", "IfcMolecularWeightMeasure") { Definition = "Molecular weight of material (typically gas)."}, new SingleValuePropertyType("Porosity", "IfcNormalisedRatioMeasure") { Definition = "The void fraction of the total volume occupied by material (Vbr - Vnet)/Vbr."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MaterialConcrete", new IPropertyTypeInfo[] { new SingleValuePropertyType("AdmixturesDescription", "IfcText") { Definition = "Description of the admixtures added to the concrete mix."}, new SingleValuePropertyType("CompressiveStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: compressive strength."}, new SingleValuePropertyType("MaxAggregateSize", "IfcPositiveLengthMeasure") { Definition = "The maximum aggregate size of the concrete."}, new SingleValuePropertyType("ProtectivePoreRatio", "IfcNormalisedRatioMeasure") { Definition = "The protective pore ratio indicating the frost-resistance of the concrete."}, new SingleValuePropertyType("WaterImpermeability", "IfcText") { Definition = "Description of the water impermeability denoting the water repelling properties."}, new SingleValuePropertyType("Workability", "IfcText") { Definition = "Description of the workability of the fresh concrete defined according to local standards."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MaterialConcrete", new IPropertyTypeInfo[] { new SingleValuePropertyType("AdmixturesDescription", "IfcText") { Definition = "Description of the admixtures added to the concrete mix."}, new SingleValuePropertyType("CompressiveStrength", "IfcPressureMeasure") { Definition = "The compressive strength of the object or material."}, new SingleValuePropertyType("MaxAggregateSize", "IfcPositiveLengthMeasure") { Definition = "The maximum aggregate size of the concrete."}, new SingleValuePropertyType("ProtectivePoreRatio", "IfcNormalisedRatioMeasure") { Definition = "The protective pore ratio indicating the frost-resistance of the concrete."}, new SingleValuePropertyType("WaterImpermeability", "IfcText") { Definition = "Description of the water impermeability denoting the water repelling properties."}, new SingleValuePropertyType("Workability", "IfcText") { Definition = "Description of the workability of the fresh concrete defined according to local standards."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialEnergy", new IPropertyTypeInfo[] { new SingleValuePropertyType("GasPressure", "IfcPressureMeasure") { Definition = "Fill pressure (e.g. for between-pane gas fills): the pressure exerted by a mass of gas confined in a constant volume."}, new SingleValuePropertyType("MoistureCapacityThermalGradient", "IfcReal") { Definition = "Thermal gradient coefficient for moisture capacity. Based on water vapor density."}, new SingleValuePropertyType("SolarRefractionIndex", "IfcReal") { Definition = "Index of refraction (solar) defines the \"bending\" of the solar ray when it passes from one medium into another."}, new SingleValuePropertyType("SpecificHeatTemperatureDerivative", "IfcReal") { Definition = "Specific heat temperature derivative."}, new SingleValuePropertyType("ThermalConductivityTemperatureDerivative", "IfcReal") { Definition = "Thermal conductivity temperature derivative."}, new SingleValuePropertyType("ViscosityTemperatureDerivative", "IfcReal") { Definition = "Viscosity temperature derivative."}, new SingleValuePropertyType("VisibleRefractionIndex", "IfcReal") { Definition = "Index of refraction (visible) defines the \"bending\" of the sola! r ray in the visible spectrum when it passes from one medium into another."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MaterialFuel", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarbonContent", "IfcPositiveRatioMeasure") { Definition = "The carbon content in the fuel. This is measured in weight of carbon per unit weight of fuel and is therefore unitless."}, new SingleValuePropertyType("CombustionTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Combustion temperature."}, new SingleValuePropertyType("HigherHeatingValue", "IfcHeatingValueMeasure") { Definition = "Higher Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in liquid form in the combustion products."}, new SingleValuePropertyType("LowerHeatingValue", "IfcHeatingValueMeasure") { Definition = "Lower Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in vapor form in the combustion products."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MaterialFuel", new IPropertyTypeInfo[] { new SingleValuePropertyType("CarbonContent", "IfcPositiveRatioMeasure") { Definition = "The carbon content in the fuel. This is measured in weight of carbon per unit weight of fuel and is therefore unitless."}, new SingleValuePropertyType("CombustionTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Combustion temperature.\n\nCombustion temperature of the material when air is at 298 K and 100 kPa."}, new SingleValuePropertyType("HigherHeatingValue", "IfcHeatingValueMeasure") { Definition = "Higher Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in liquid form in the combustion products."}, new SingleValuePropertyType("LowerHeatingValue", "IfcHeatingValueMeasure") { Definition = "Lower Heating Value is defined as the amount of energy released (MJ/kg) when a fuel is burned completely, and H2O is in vapor form in the combustion products."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialHygroscopic", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsothermalMoistureCapacity", "IfcIsothermalMoistureCapacityMeasure") { Definition = "Based on water vapor density."}, new SingleValuePropertyType("LowerVaporResistanceFactor", "IfcPositiveRatioMeasure") { Definition = "The vapor permeability relationship of air/material (typically value > 1), measured in low relative humidity (typically in 0/50 % RH)."}, new SingleValuePropertyType("MoistureDiffusivity", "IfcMoistureDiffusivityMeasure") { Definition = "Moisture diffusivity is a transport property that is frequently used in the hygrothermal analysis of building envelope components."}, new SingleValuePropertyType("UpperVaporResistanceFactor", "IfcPositiveRatioMeasure") { Definition = "The vapor permeability relationship of air/material (typically value > 1), measured in high relative humidity (typically in 95/50 % RH)."}, new SingleValuePropertyType("VaporPermeability", "IfcVaporPermeabilityMeasure") { Definition = "The rate of water vapor transmission per unit area per unit of vapor pressure differential under test conditions."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MaterialMechanical", new IPropertyTypeInfo[] { new SingleValuePropertyType("DynamicViscosity", "IfcDynamicViscosityMeasure") { Definition = "A measure of the viscous resistance of the material."}, new SingleValuePropertyType("PoissonRatio", "IfcPositiveRatioMeasure") { Definition = "A measure of the lateral deformations in the elastic range."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "A measure of the expansion coefficient for warming up the material about one Kelvin."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MaterialMechanical", new IPropertyTypeInfo[] { new SingleValuePropertyType("DynamicViscosity", "IfcDynamicViscosityMeasure") { Definition = "A measure of the viscous resistance of the material."}, new SingleValuePropertyType("PoissonRatio", "IfcPositiveRatioMeasure") { Definition = "A measure of the lateral deformations in the elastic range."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ThermalExpansionCoefficient", "IfcThermalExpansionCoefficientMeasure") { Definition = "Quantity characterizing the variation with thermodynamic temperature T of the distance l between two points of a body, under given conditions (IEC 113-04-27). The ratio is defined per Kelvin."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialOptical", new IPropertyTypeInfo[] { new SingleValuePropertyType("SolarReflectanceBack", "IfcNormalisedRatioMeasure") { Definition = "Reflectance at normal incidence (solar): back side. Defines the fraction of the solar ray that is reflected and not transmitted when the ray passes from one medium into another, at the \"back\" side of the other material, perpendicular to the surface. Dependent on material and surface characteristics."}, new SingleValuePropertyType("SolarReflectanceFront", "IfcNormalisedRatioMeasure") { Definition = "Reflectance at normal incidence (solar): front side. Defines the fraction of the solar ray that is reflected and not transmitted when the ray passes from one medium into another, at the \"front\" side of the other material, perpendicular to the surface. Dependent on material and surface characteristics."}, new SingleValuePropertyType("SolarTransmittance", "IfcNormalisedRatioMeasure") { Definition = "The ratio of incident solar radiation that directly passes through a system (also named τe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("ThermalIrEmissivityBack", "IfcNormalisedRatioMeasure") { Definition = "Thermal IR emissivity: back side. Defines the fraction of thermal energy emitted per unit area to \"blackbody\" at the same temperature, through the \"back\" side of the material."}, new SingleValuePropertyType("ThermalIrEmissivityFront", "IfcNormalisedRatioMeasure") { Definition = "Thermal IR emissivity: front side. Defines the fraction of thermal energy emitted per unit area to \"blackbody\" at the same temperature, through the \"front\" side of the material."}, new SingleValuePropertyType("ThermalIrTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Thermal IR transmittance at normal incidence. Defines the fraction of thermal energy that passes through per unit area, perpendicular to the surface."}, new SingleValuePropertyType("VisibleReflectanceBack", "IfcNormalisedRatioMeasure") { Definition = "Reflectance at normal incidence (visible): back side. Defines the fraction of the solar ray in the visible spectrum that is reflected and not transmitted when the ray passes from one medium into another, at the \"back\" side of the other material, perpendicular to the surface. Dependent on material and surface characteristics."}, new SingleValuePropertyType("VisibleReflectanceFront", "IfcNormalisedRatioMeasure") { Definition = "Reflectance at normal incidence (visible): front side. Defines the fraction of the solar ray in the visible spectrum that is reflected and not transmitted when the ray passes from one medium into another, at the \"front\" side of the other material, perpendicular to the surface. Dependent on material and surface characteristics."}, new SingleValuePropertyType("VisibleTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Transmittance at normal incidence (visible). Defines the fraction of the visible spectrum of solar radiation that passes through per unit area, perpendicular to the surface."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialSteel", new IPropertyTypeInfo[] { new SingleValuePropertyType("HardeningModule", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the hardening module of the material (slope of stress versus strain curve after yield range)."}, new SingleValuePropertyType("PlasticStrain", "IfcPositiveRatioMeasure") { Definition = "A measure of the permanent displacement, as in slip or twinning, which remains after the stress has been removed. Currently applied to a strain of 0.2% proportional stress of the material."}, new SingleValuePropertyType("ProportionalStress", "IfcPressureMeasure") { Definition = "A measure of the proportional stress of the material. It describes the stress before the first plastic deformation occurs and is commonly measured at a deformation of 0.01%."}, new SingleValuePropertyType("StructuralGrade", "IfcLabel") { Definition = "Classification label to define mechanical properties according to structural grades defined in published standards; designated by numbers, letters, or a combination of both."}, new SingleValuePropertyType("UltimateStrain", "IfcPositiveRatioMeasure") { Definition = "A measure of the (engineering) strain at the state of ultimate stress of the material."}, new SingleValuePropertyType("UltimateStress", "IfcPressureMeasure") { Definition = "A measure of the ultimate stress of the material."}, new SingleValuePropertyType("YieldStress", "IfcPressureMeasure") { Definition = "A measure of the yield stress (or characteristic 0.2 percent proof stress) of the material."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MaterialThermal", new IPropertyTypeInfo[] { new SingleValuePropertyType("BoilingPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The boiling point of the material (fluid)."}, new SingleValuePropertyType("FreezingPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The freezing point of the material (fluid)."}, new SingleValuePropertyType("SpecificHeatCapacity", "IfcSpecificHeatCapacityMeasure") { Definition = "Defines the specific heat capacity of a material."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MaterialThermal", new IPropertyTypeInfo[] { new SingleValuePropertyType("BoilingPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The boiling point of the material (fluid)."}, new SingleValuePropertyType("FreezingPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The freezing point of the material (fluid)."}, new SingleValuePropertyType("SpecificHeatCapacity", "IfcSpecificHeatCapacityMeasure") { Definition = "Defines the specific heat capacity of a material.\n\nDefines the specific heat of the material: heat energy absorbed per temperature unit."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object.\n\nThe rate at which thermal energy is transmitted through the material."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialWater", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcidityConcentration", "IfcIonConcentrationMeasure") { Definition = "Maximum CaCO3 equivalent that would neutralize the acid."}, new SingleValuePropertyType("AlkalinityConcentration", "IfcIonConcentrationMeasure") { Definition = "Maximum alkalinity concentration (maximum sum of concentrations of each of the negative ions substances measured as CaCO3)."}, new SingleValuePropertyType("DissolvedSolidsContent", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the dissolved solids to the total amount of water. This is measured in weight of dissolved solids per weight of water and is therefore unitless."}, new SingleValuePropertyType("Hardness", "IfcIonConcentrationMeasure") { Definition = "Water hardness as positive, multivalent ion concentration in the water (usually concentrations of calcium and magnesium ions in terms of calcium carbonate)."}, new SingleValuePropertyType("ImpuritiesContent", "IfcNormalisedRatioMeasure") { Definition = "Fraction of impurities such as dust to the total amount of water. This is measured in weight of impurities per weight of water and is therefore unitless."}, new SingleValuePropertyType("IsPotable", "IfcBoolean") { Definition = "If TRUE, then the water is considered potable."}, new SingleValuePropertyType("PHLevel", "IfcPHMeasure") { Definition = "Maximum water PH in a range from 0-14."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialWood", new IPropertyTypeInfo[] { new SingleValuePropertyType("AppearanceGrade", "IfcLabel") { Definition = "Grade with respect to visual quality."}, new SingleValuePropertyType("DimensionalChangeCoefficient", "IfcPositiveRatioMeasure") { Definition = "Weighted dimensional change coefficient, relative to 1% change in moisture content."}, new SingleValuePropertyType("Layers", "IfcInteger") { Definition = "Number of layers."}, new SingleValuePropertyType("Layup", "IfcLabel") { Definition = "Configuration of the lamination."}, new SingleValuePropertyType("MoistureContent", "IfcPositiveRatioMeasure") { Definition = "Total weight of moisture relative to oven-dried weight of the wood."}, new SingleValuePropertyType("Plies", "IfcInteger") { Definition = "Number of plies."}, new SingleValuePropertyType("Species", "IfcLabel") { Definition = "Wood species of a solid wood or laminated wood product."}, new SingleValuePropertyType("StrengthGrade", "IfcLabel") { Definition = "Grade with respect to mechanical strength and stiffness."}, new SingleValuePropertyType("ThicknessSwelling", "IfcPositiveRatioMeasure") { Definition = "Swelling ratio relative to board depth."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MaterialWoodBasedStructure", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApplicableStructuralDesignMethod", "IfcLabel") { Definition = "Determines whether mechanical material properties are applicable to 'ASD' = allowable stress design (working stress design), 'LSD' = limit state design, or 'LRFD' = load and resistance factor design."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MechanicalBeamInPlane", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MechanicalBeamInPlaneNegative", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); - yield return new PropertySetInfo("Pset_MechanicalBeamOutOfPlane", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MechanicalBeamInPlane", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Bending strength.\n\nDefining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MechanicalBeamInPlaneNegative", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Bending strength.\n\nDefining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); + yield return new PropertySetInfo("Pset_MechanicalBeamOutOfPlane", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Bending strength.\n\nDefining values: α; defined values: bending strength."}, new SingleValuePropertyType("CompStrength", "IfcPressureMeasure") { Definition = "Compressive strength, α=0°."}, new SingleValuePropertyType("CompStrengthPerp", "IfcPressureMeasure") { Definition = "Compressive strength, α=90°."}, new SingleValuePropertyType("RaisedCompStrengthPerp", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength, α=90°, which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("ShearModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Shear modulus, minimal value."}, new SingleValuePropertyType("ShearStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: shear strength."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensileStrengthPerp", "IfcPressureMeasure") { Definition = "Tensile strength, α=90°."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("YoungModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the Young's modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=0°."}, new SingleValuePropertyType("YoungModulusPerp", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, mean value, α=90°."}, new SingleValuePropertyType("YoungModulusPerpMin", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus, minimal value, α=90°."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MechanicalFastenerAnchorBolt", new IPropertyTypeInfo[] { new SingleValuePropertyType("AnchorBoltDiameter", "IfcPositiveLengthMeasure") { Definition = "The nominal diameter of the anchor bolt bar(s)."}, new SingleValuePropertyType("AnchorBoltLength", "IfcPositiveLengthMeasure") { Definition = "The length of the anchor bolt."}, new SingleValuePropertyType("AnchorBoltProtrusionLength", "IfcPositiveLengthMeasure") { Definition = "The length of the protruding part of the anchor bolt."}, new SingleValuePropertyType("AnchorBoltThreadLength", "IfcPositiveLengthMeasure") { Definition = "The length of the threaded part of the anchor bolt."} }, new [] { "IfcMechanicalFastener", "IfcMechanicalFastenerType" }); yield return new PropertySetInfo("Pset_MechanicalFastenerBolt", new IPropertyTypeInfo[] { new SingleValuePropertyType("HeadShape", "IfcLabel") { Definition = "Shape of the bolt's head, e.g. 'Hexagon', 'Countersunk', 'Cheese'"}, new SingleValuePropertyType("KeyShape", "IfcLabel") { Definition = "If applicable, shape of the head's slot, e.g. 'Slot', 'Allen'"}, new SingleValuePropertyType("NutsCount", "IfcCountMeasure") { Definition = "Count of nuts to be mounted on one bolt"}, new SingleValuePropertyType("NutShape", "IfcLabel") { Definition = "Shape of the nut, e.g. 'Hexagon', 'Cap', 'Castle', 'Wing'"}, new SingleValuePropertyType("ThreadDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter of the thread, if different from the bolt's overall nominal diameter"}, new SingleValuePropertyType("ThreadLength", "IfcPositiveLengthMeasure") { Definition = "Nominal length of the thread"}, new SingleValuePropertyType("WashersCount", "IfcCountMeasure") { Definition = "Count of washers to be mounted on one bolt"}, new SingleValuePropertyType("WasherShape", "IfcLabel") { Definition = "Shape of the washers, e.g. 'Standard', 'Square'"} }, new [] { "IfcMechanicalFastener", "IfcMechanicalFastenerType" }); yield return new PropertySetInfo("Pset_MechanicalFastenerOCSFitting", new IPropertyTypeInfo[] { new SingleValuePropertyType("ManufacturingTechnology", "IfcLabel") { Definition = "The method / technology used to produce the equipment."}, new EnumerationPropertyType("OCSFasteningType", new [] { "EARTHING_FITTING", "JOINT_FITTING", "REGISTRATION_FITTING", "SUPPORT_FITTING", "SUSPENSION_FITTING", "TENSIONING_FITTING", "TERMINATION_FITTING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of the overhead contact system (OCS) mechanical fastener."} }, new [] { "IfcMechanicalFastener", "IfcMechanicalFastenerType" }); @@ -1086,11 +1088,11 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_MechanicalPanelOutOfPlane", new IPropertyTypeInfo[] { new SingleValuePropertyType("RaisedCompressiveStrength", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusCompression", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus in compression."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MechanicalPanelOutOfPlaneNegative", new IPropertyTypeInfo[] { new SingleValuePropertyType("RaisedCompressiveStrength", "IfcPressureMeasure") { Definition = "Alternative value for compressive strength which may be used under material and code dependent conditions (e.g. if deformation is tolerable, or far from ends of the member); conditions should be stated in SELF\\IfcProperty.Description."}, new SingleValuePropertyType("ReferenceDepth", "IfcPositiveLengthMeasure") { Definition = "Depth in bending for which the mechanical properties are valid; provided as a means to check the integrity of material assignment."}, new SingleValuePropertyType("ShearModulus", "IfcModulusOfElasticityMeasure") { Definition = "A measure of the shear modulus of elasticity of the material."}, new SingleValuePropertyType("YoungModulusCompression", "IfcModulusOfElasticityMeasure") { Definition = "Elastic modulus in compression."} }, new [] { "IfcMaterial" }); yield return new PropertySetInfo("Pset_MedicalDeviceTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcMedicalDevice", "IfcMedicalDeviceType" }); - yield return new PropertySetInfo("Pset_MemberCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new SingleValuePropertyType("Span", "IfcPositiveLengthMeasure") { Definition = "Clear span for this object.The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcMember", "IfcMemberType" }); + yield return new PropertySetInfo("Pset_MemberCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roll", "IfcPlaneAngleMeasure") { Definition = "Rotation against the longitudinal axis.\n\nRelative to the global Z direction for all members that are non-vertical in regard to the global coordinate system (Profile direction equals global Z is Roll = 0.)\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence.\nNote: new property in IFC4."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new SingleValuePropertyType("Span", "IfcPositiveLengthMeasure") { Definition = "Clear span for this object.The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcMember", "IfcMemberType" }); yield return new PropertySetInfo("Pset_MemberTypeAnchoringBar", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasLightningRod", "IfcBoolean") { Definition = "Indicates whether the element is equipped with a lightning rod (TRUE) or not (FALSE)."}, new EnumerationPropertyType("MechanicalStressType", new [] { "MECHANICAL_COMPRESSION", "MECHANICAL_TRACTION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates which type of stress is applied to the element."} }, new [] { "IfcMember", "IfcMemberType" }); yield return new PropertySetInfo("Pset_MemberTypeCatenaryStay", new IPropertyTypeInfo[] { new EnumerationPropertyType("CatenaryStayType", new [] { "DOUBLE_STAY", "SINGLE_STAY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of catenary stay used."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcMember", "IfcMemberType" }); yield return new PropertySetInfo("Pset_MemberTypeOCSRigidSupport", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContactWireStagger", "IfcPositiveLengthMeasure") { Definition = "Lateral displacement of the contact wire to opposite sides of the track centre at successive supports."} }, new [] { "IfcMember", "IfcMemberType" }); - yield return new PropertySetInfo("Pset_MemberTypePost", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Defining values: α; defined values: bending strength."}, new SingleValuePropertyType("ConicityRatio", "IfcRatioMeasure") { Definition = "The ratio of the diameter of the cone bottom surface to the height of the pole."}, new SingleValuePropertyType("LoadBearingCapacity", "IfcPlanarForceMeasure") { Definition = "Maximum load bearing capacity of the floor structure throughtout the storey as designed."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcMember", "IfcMemberType" }); + yield return new PropertySetInfo("Pset_MemberTypePost", new IPropertyTypeInfo[] { new SingleValuePropertyType("BendingStrength", "IfcPressureMeasure") { Definition = "Bending strength."}, new SingleValuePropertyType("ConicityRatio", "IfcRatioMeasure") { Definition = "The ratio of the diameter of the cone bottom surface to the height of the pole."}, new SingleValuePropertyType("LoadBearingCapacity", "IfcPlanarForceMeasure") { Definition = "Maximum load bearing capacity of the floor structure throughtout the storey as designed."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("TorsionalStrength", "IfcPressureMeasure") { Definition = "Shear strength in torsion."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcMember", "IfcMemberType" }); yield return new PropertySetInfo("Pset_MemberTypeTieBar", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsTemporaryInstallation", "IfcBoolean") { Definition = "Indicates whether the installation (in the construction stage) is permanent (TRUE) or temporary (FALSE)"} }, new [] { "IfcMember", "IfcMemberType" }); yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeAccessPoint", new IPropertyTypeInfo[] { new SingleValuePropertyType("BandWidth", "IfcFrequencyMeasure") { Definition = "Indicates the bandwidth for telecommunication of the device."}, new SingleValuePropertyType("DataEncryptionType", "IfcLabel") { Definition = "Indicates the type of security protocols that can be used in the access point to protect the wireless network."}, new SingleValuePropertyType("DataExchangeRate", "IfcIntegerCountRateMeasure") { Definition = "Indicates the data transfer rate of the access point in bit per second (bps)."}, new SingleValuePropertyType("NumberOfAntennas", "IfcCountMeasure") { Definition = "Indicates the number of antennas integrated in the device."}, new SingleValuePropertyType("UserCapacity", "IfcInteger") { Definition = "Indicates the user capacity of the device, defined as the maximum number of users that can be active at the same time."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeBasebandUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumNumberOfRRUs", "IfcInteger") { Definition = "Indicates the maximum number of remote radio units (RRU) which can be connected to the baseband unit."}, new SingleValuePropertyType("NumberOfCarriers", "IfcCountMeasure") { Definition = "Indicates how many carrier frequencies can be managed by the device."}, new SingleValuePropertyType("NumberOfEmergencyTransceivers", "IfcCountMeasure") { Definition = "Indicates the number of emergency transceivers in the base band unit."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); @@ -1100,34 +1102,35 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeMasterUnit", new IPropertyTypeInfo[] { new EnumerationPropertyType("MasterUnitType", new [] { "ANALOG", "DIGITAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the master unit type."}, new SingleValuePropertyType("MaximumNumberOfConnectedRUs", "IfcInteger") { Definition = "Indicates the maximum number of remote units (RUs) which can be connected to the master unit."}, new EnumerationPropertyType("TransmissionType", new [] { "FIBER", "RADIO", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the data transmission type of the master unit."}, new SingleValuePropertyType("TransmittedBandwidth", "IfcFrequencyMeasure") { Definition = "Indicates the transmitted bandwidth of the master unit."}, new SingleValuePropertyType("TransmittedFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the transmitted frequency used by the master unit."}, new EnumerationPropertyType("TransmittedSignal", new [] { "CDMA", "GSM", "LTE", "TD_SCDMA", "WCDMA", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type or standard of signal transmitted by the master unit."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeMobileSwitchingCenter", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaximumNumberOfManagedBSCs", "IfcInteger") { Definition = "Indicates the maximum number of base station controller (BSC) that can be managed simultaneously by the mobile switching center (MSC)."}, new SingleValuePropertyType("UserCapacity", "IfcInteger") { Definition = "Indicates the user capacity of the device, defined as the maximum number of users that can be active at the same time."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeMSCServer", new IPropertyTypeInfo[] { new SingleValuePropertyType("UserCapacity", "IfcInteger") { Definition = "Indicates the user capacity of the device, defined as the maximum number of users that can be active at the same time."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); - yield return new PropertySetInfo("Pset_MobileTeleCommunicationsApplianceTypeRemoteRadioUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("AntennaType", "IfcLabel") { Definition = "Indicates the type of antenna."}, new SingleValuePropertyType("DownlinkRadioBand", "IfcFrequencyMeasure") { Definition = "Indicates the frequency range, delimited by a lower frequency and an upper frequency, allocated for downlink transmission."}, new SingleValuePropertyType("NumberOfCarriers", "IfcCountMeasure") { Definition = "Indicates how many carrier frequencies can be managed by the device."}, new EnumerationPropertyType("RRUConnectionType", new [] { "CHAIN", "MIXED", "RING", "STAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the connection type between the remote radio unit and baseband unit."}, new SingleValuePropertyType("UplinkRadioBand", "IfcFrequencyMeasure") { Definition = "Indicates the frequency range, delimited by a lower frequency and an upper frequency, allocated for uplink transmission."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); + yield return new PropertySetInfo("Pset_MobileTeleCommunicationsApplianceTypeRemoteRadioUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("AntennaType", "IfcLabel") { Definition = "Indicates the type of antenna.\n\nIndicates the type of antenna integrated in the device."}, new SingleValuePropertyType("DownlinkRadioBand", "IfcFrequencyMeasure") { Definition = "Indicates the frequency range, delimited by a lower frequency and an upper frequency, allocated for downlink transmission."}, new SingleValuePropertyType("NumberOfCarriers", "IfcCountMeasure") { Definition = "Indicates how many carrier frequencies can be managed by the device."}, new EnumerationPropertyType("RRUConnectionType", new [] { "CHAIN", "MIXED", "RING", "STAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the connection type between the remote radio unit and baseband unit."}, new SingleValuePropertyType("UplinkRadioBand", "IfcFrequencyMeasure") { Definition = "Indicates the frequency range, delimited by a lower frequency and an upper frequency, allocated for uplink transmission."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_MobileTelecommunicationsApplianceTypeRemoteUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfAntennas", "IfcCountMeasure") { Definition = "Indicates the number of antennas integrated in the device."}, new EnumerationPropertyType("RUConnectionType", new [] { "CHAIN", "MIXED", "RING", "STAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicate the connection type between the remote unit and the master unit."} }, new [] { "IfcMobileTelecommunicationsAppliance", "IfcMobileTelecommunicationsApplianceType" }); - yield return new PropertySetInfo("Pset_MooringDeviceCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AnchorageType", new [] { "CASTIN", "DRILLEDANDFIXED", "THROUGHBOLTED" } ) { Definition = "Mooring device anchorage type"}, new SingleValuePropertyType("DeviceCapacity", "IfcForceMeasure") { Definition = "Mooring device force capacity"}, new EnumerationPropertyType("DeviceType", new [] { "CLEAT", "DOUBLEBUTT", "HORN", "KIDNEY", "PILLAR", "RING", "SINGLEBUTT", "THEAD" } ) { Definition = "Mooring device type"}, new SingleValuePropertyType("MaximumLineCount", "IfcCountMeasure") { Definition = "Maximum number of lines that may be secured to the mooring device."}, new SingleValuePropertyType("MaximumLineSlope", "IfcPlaneAngleMeasure") { Definition = "Maximum allowable line angle in degrees (negative if below horizontal from quay)"}, new SingleValuePropertyType("MinumumLineSlope", "IfcPlaneAngleMeasure") { Definition = "Minimum allowable line angle in degrees (negative if below horizontal from quay)"} }, new [] { "IfcMooringDevice", "IfcMooringDeviceType", "IfcMooringDeviceType", "IfcMooringDevice" }); + yield return new PropertySetInfo("Pset_MooringDeviceCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AnchorageType", new [] { "CASTIN", "DRILLEDANDFIXED", "THROUGHBOLTED" } ) { Definition = "Mooring device anchorage type"}, new SingleValuePropertyType("DeviceCapacity", "IfcForceMeasure") { Definition = "Mooring device force capacity"}, new EnumerationPropertyType("DeviceType", new [] { "CLEAT", "DOUBLEBUTT", "HORN", "KIDNEY", "PILLAR", "RING", "SINGLEBUTT", "THEAD" } ) { Definition = "Mooring device type"}, new SingleValuePropertyType("MaximumLineCount", "IfcCountMeasure") { Definition = "Maximum number of lines that may be secured to the mooring device."}, new SingleValuePropertyType("MaximumLineSlope", "IfcPlaneAngleMeasure") { Definition = "Maximum allowable line angle in degrees (negative if below horizontal from quay)"}, new SingleValuePropertyType("MinumumLineSlope", "IfcPlaneAngleMeasure") { Definition = "Minimum allowable line angle in degrees (negative if below horizontal from quay)"} }, new [] { "IfcMooringDevice", "IfcMooringDeviceType" }); yield return new PropertySetInfo("Pset_MotorConnectionTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcMotorConnection", "IfcMotorConnectionType" }); yield return new PropertySetInfo("Pset_OnSiteCastKerb", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcKerb", "IfcKerbType" }); yield return new PropertySetInfo("Pset_OnSiteTelecomControlUnit", new IPropertyTypeInfo[] { new EnumerationPropertyType("ControllerInterfaceType", new [] { "EARTHQUAKERELAYINTERFACE", "FOREIGNOBJECTRELAYINTERFACE", "RS_422", "RS_485", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of serial interface used by the device."}, new SingleValuePropertyType("HasEarthquakeAlarm", "IfcBoolean") { Definition = "Indicates whether the on-site control unit includes earthquake alarm function."}, new SingleValuePropertyType("HasEarthquakeCollection", "IfcBoolean") { Definition = "Indicates whether the on-site control unit collects earthquake information."}, new SingleValuePropertyType("HasForeignObjectCollection", "IfcBoolean") { Definition = "Indicates whether the on-site control unit collects foreign object information."}, new SingleValuePropertyType("HasOutputFunction", "IfcBoolean") { Definition = "Indicates whether the on-site control unit includes an output function."}, new SingleValuePropertyType("HasRainCollection", "IfcBoolean") { Definition = "Indicates whether the on-site control unit collects information on rain."}, new SingleValuePropertyType("HasSnowCollection", "IfcBoolean") { Definition = "Indicates whether the on-site control unit collects information on snow depth."}, new SingleValuePropertyType("HasWindCollection", "IfcBoolean") { Definition = "Indicates whether the on-site control unit collects information on wind."} }, new [] { "IfcController", "IfcControllerType" }); - yield return new PropertySetInfo("Pset_OpeningElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("Purpose", "IfcLabel") { Definition = "Purpose; usually an enumeration."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcOpeningElement" }); + yield return new PropertySetInfo("Pset_OpeningElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values).\n\nRequirement for the element filling the opening."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere whether the space (in case of e.g., a corridor) is designed to serve as an exit space, e.g., for fire escape purposes."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification.\n\nRequirement for the element filling the opening."}, new SingleValuePropertyType("Purpose", "IfcLabel") { Definition = "Indication of the purpose of this object\n\nE.g. 'ventilation' or 'access'"}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcOpeningElement" }); yield return new PropertySetInfo("Pset_OpticalAdapter", new IPropertyTypeInfo[] { new EnumerationPropertyType("FiberType", new [] { "BEND_INSENSITIVEFIBER", "CUTOFFSHIFTEDFIBER", "DISPERSIONSHIFTEDFIBER", "LOWWATERPEAKFIBER", "NON_ZERODISPERSIONSHIFTEDFIBER", "OM1", "OM2", "OM3", "OM4", "OM5", "STANDARDSINGLEMODEFIBER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of the single fiber."} }, new [] { "IfcCableFitting", "IfcCableFittingType" }); yield return new PropertySetInfo("Pset_OpticalPigtail", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectorType", "IfcLabel") { Definition = "Indicates the type of connector."}, new EnumerationPropertyType("FiberType", new [] { "BEND_INSENSITIVEFIBER", "CUTOFFSHIFTEDFIBER", "DISPERSIONSHIFTEDFIBER", "LOWWATERPEAKFIBER", "NON_ZERODISPERSIONSHIFTEDFIBER", "OM1", "OM2", "OM3", "OM4", "OM5", "STANDARDSINGLEMODEFIBER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of the single fiber."}, new SingleValuePropertyType("JacketColour", "IfcLabel") { Definition = "Indicates the colour of the cable or fitting jacket."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_OpticalSplitter", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfBranches", "IfcCountMeasure") { Definition = "Indicates the number of branches that can be supported by the optical splitter."}, new EnumerationPropertyType("OpticalSplitterType", new [] { "MULTIMODE", "SINGLEMODE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of optical splitter, single mode or multi-mode."} }, new [] { "IfcJunctionBox", "IfcJunctionBoxType" }); yield return new PropertySetInfo("Pset_OutletTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsPluggableOutlet", "IfcLogical") { Definition = "Indication of whether the outlet accepts a loose plug connection (= TRUE) or whether it is directly connected (= FALSE) or whether the form of connection has not yet been determined (= UNKNOWN)."}, new SingleValuePropertyType("NumberOfSockets", "IfcCountMeasure") { Definition = "The number of sockets that may be connected. In case of inconsistency, sockets defined on ports take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcOutlet", "IfcOutletType" }); - yield return new PropertySetInfo("Pset_OutsideDesignCriteria", new IPropertyTypeInfo[] { new EnumerationPropertyType("BuildingThermalExposure", new [] { "HEAVY", "LIGHT", "MEDIUM", "NOTKNOWN", "UNSET" } ) { Definition = "The thermal exposure expected by the building based on surrounding site conditions."}, new SingleValuePropertyType("CoolingDesignDay", "IfcDateTime") { Definition = "The month, day and time that has been selected for the cooling design calculations."}, new SingleValuePropertyType("CoolingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature, usually for for cooling design."}, new SingleValuePropertyType("CoolingWetBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Outside wet bulb temperature for cooling design."}, new SingleValuePropertyType("HeatingDesignDay", "IfcDateTime") { Definition = "The month, day and time that has been selected for the heating design calculations."}, new SingleValuePropertyType("HeatingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature for heating design."}, new SingleValuePropertyType("HeatingWetBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Outside wet bulb temperature for heating design."}, new SingleValuePropertyType("PrevailingWindDirection", "IfcPlaneAngleMeasure") { Definition = "The prevailing wind angle direction measured from True North (0 degrees) in a clockwise direction."}, new SingleValuePropertyType("PrevailingWindVelocity", "IfcLinearVelocityMeasure") { Definition = "The design wind velocity coming from the direction specified by the PrevailingWindDirection attribute."}, new SingleValuePropertyType("WeatherDataDate", "IfcDateTime") { Definition = "The date for which the weather data was gathered."}, new SingleValuePropertyType("WeatherDataStation", "IfcText") { Definition = "The site weather data station description or reference to the data source from which weather data was obtained for use in calculations."} }, new [] { "IfcBuilding" }); + yield return new PropertySetInfo("Pset_OutsideDesignCriteria", new IPropertyTypeInfo[] { new EnumerationPropertyType("BuildingThermalExposure", new [] { "HEAVY", "LIGHT", "MEDIUM", "NOTKNOWN", "UNSET" } ) { Definition = "The thermal exposure expected by the building based on surrounding site conditions."}, new SingleValuePropertyType("CoolingDesignDay", "IfcDateTime") { Definition = "The month, day and time that has been selected for the cooling design calculations."}, new SingleValuePropertyType("CoolingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature, usually for for cooling design.\n\nOutside dry bulb temperature"}, new SingleValuePropertyType("CoolingWetBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Outside wet bulb temperature for cooling design."}, new SingleValuePropertyType("HeatingDesignDay", "IfcDateTime") { Definition = "The month, day and time that has been selected for the heating design calculations."}, new SingleValuePropertyType("HeatingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature for heating design.\n\nAt outside."}, new SingleValuePropertyType("HeatingWetBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Outside wet bulb temperature for heating design."}, new SingleValuePropertyType("PrevailingWindDirection", "IfcPlaneAngleMeasure") { Definition = "The prevailing wind angle direction measured from True North (0 degrees) in a clockwise direction."}, new SingleValuePropertyType("PrevailingWindVelocity", "IfcLinearVelocityMeasure") { Definition = "The design wind velocity coming from the direction specified by the PrevailingWindDirection attribute."}, new SingleValuePropertyType("WeatherDataDate", "IfcDateTime") { Definition = "The date for which the weather data was gathered."}, new SingleValuePropertyType("WeatherDataStation", "IfcText") { Definition = "The site weather data station description or reference to the data source from which weather data was obtained for use in calculations."} }, new [] { "IfcBuilding" }); yield return new PropertySetInfo("Pset_PackingInstructions", new IPropertyTypeInfo[] { new EnumerationPropertyType("PackingCareType", new [] { "FRAGILE", "HANDLEWITHCARE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of care that may be required when handling the artefact during a move where:Fragile: artefact may be broken during a move through careless handling.\nHandleWithCare: artefact may be damaged during a move through careless handling."}, new SingleValuePropertyType("SpecialInstructions", "IfcText") { Definition = "Special instructions."} }, new [] { "IfcTask", "IfcTaskType" }); yield return new PropertySetInfo("Pset_PatchCordCable", new IPropertyTypeInfo[] { new SingleValuePropertyType("JacketColour", "IfcLabel") { Definition = "Indicates the colour of the cable or fitting jacket."} }, new [] { "IfcCableSegment", "IfcCableSegment", "IfcCableSegmentType", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_PavementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalThicknessEnd", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object after a transition from its original value. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("StructuralSlope", "IfcPositiveRatioMeasure") { Definition = "The nominal side slope (allowable steepness) of the pavement structure (not including side slope fill) as a positive ratio measure. The slope information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters take precedence. Value is typically less than 1.0 (1:1) but may be greater than that for steeper slopes."}, new SingleValuePropertyType("StructuralSlopeType", "IfcLabel") { Definition = "User defined description on the type of slope used for the pavement structure (not including side slope fill) . Examples are \"Even\" or \"Stepped\"."} }, new [] { "IfcPavement", "IfcPavementType" }); - yield return new PropertySetInfo("Pset_PavementMillingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcEarthworksCut" }); + yield return new PropertySetInfo("Pset_PavementMillingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcEarthworksCut" }); yield return new PropertySetInfo("Pset_PavementSurfaceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("PavementRoughness", "IfcNumericMeasure") { Definition = "An assessment of the functional condition of the pavement surface indicated as an index according to the International Roughness Index (IRI)."}, new SingleValuePropertyType("PavementTexture", "IfcPositiveLengthMeasure") { Definition = "Characterization of pavement texture by mean profile depthNOTE Definition according to ISO 13473-1:2019"} }, new [] { "IfcPavement", "IfcPavementType" }); + yield return new PropertySetInfo("Pset_PermeableCoveringProperties", new IPropertyTypeInfo[] { new SingleValuePropertyType("FrameDepth", "IfcPositiveLengthMeasure") { Definition = "The length (or depth) of the frame.\n\nFor a permeable covering, it is the depth of panel frame (used to include the permeable covering), measured from front face to back face horizontally (i.e. perpendicular to the window or door elevation plane)."}, new SingleValuePropertyType("FrameThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the frame.\n\nFor a permeable covering, it is the width of panel frame (used to include the permeable covering), measured from inside of panel (at permeable covering) to outside of panel (at lining), i.e. parallel to the window or door (elevation) plane."}, new EnumerationPropertyType("OperationType", new [] { "GRILL", "LOUVER", "SCREEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of operations. Also used to assign standard symbolic presentations according to national building standards.\n\nFor a permeable covering, it is the type of permeable covering operations. Also used to assign standard symbolic presentations according to national building standards."}, new EnumerationPropertyType("PanelPosition", new [] { "BOTTOM", "LEFT", "MIDDLE", "RIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Position of the panel.\n\nFor a permeable covering, it is the position of the permeable covering panel within the overall window or door type."} }, new [] { "IfcDoor", "IfcMember", "IfcWindow", "IfcDoorType", "IfcMemberType", "IfcWindowType" }); yield return new PropertySetInfo("Pset_Permit", new IPropertyTypeInfo[] { new SingleValuePropertyType("EndDate", "IfcDateTime") { Definition = "Date and time at which the permit ceases to be valid."}, new SingleValuePropertyType("EscortRequirement", "IfcBoolean") { Definition = "Indicates whether or not an escort is required to accompany persons carrying out a work order at or to/from the place of work (= TRUE) or not (= FALSE).NOTE - There are many instances where escorting is required, particularly in a facility that has a high security rating. Escorting may require that persons are escorted to and from the place of work. Alternatively, it may involve the escort remaining at the place of work at all times."}, new SingleValuePropertyType("SpecialRequirements", "IfcText") { Definition = "Any additional special requirements that need to be included in the permit to work.NOTE - Additional permit requirements may be imposed according to the nature of the facility at which the work is carried out. For instance, in clean areas, special clothing may be required whilst in corrective institutions, it may be necessary to check in and check out tools that will be used for work as a safety precaution."}, new SingleValuePropertyType("StartDate", "IfcDateTime") { Definition = "Date and time from which the permit becomes valid."} }, new [] { "IfcPermit" }); yield return new PropertySetInfo("Pset_PileCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcPile", "IfcPileType" }); yield return new PropertySetInfo("Pset_PipeConnectionFlanged", new IPropertyTypeInfo[] { new SingleValuePropertyType("BoltholePitch", "IfcPositiveLengthMeasure") { Definition = "Diameter of the circle along which the boltholes are placed."}, new SingleValuePropertyType("BoltSize", "IfcPositiveLengthMeasure") { Definition = "Size of the bolts securing the flange."}, new SingleValuePropertyType("BoreSize", "IfcPositiveLengthMeasure") { Definition = "The nominal bore of the pipe flange."}, new SingleValuePropertyType("FlangeDiameter", "IfcPositiveLengthMeasure") { Definition = "Overall diameter of the flange."}, new SingleValuePropertyType("FlangeStandard", "IfcLabel") { Definition = "Designation of the standard describing the flange table."}, new SingleValuePropertyType("FlangeTable", "IfcLabel") { Definition = "Designation of the standard table to which the flange conforms."}, new SingleValuePropertyType("FlangeThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material from which the pipe bend is constructed."}, new SingleValuePropertyType("NumberOfBoltholes", "IfcCountMeasure") { Definition = "Number of boltholes in the flange."} }, new [] { "IfcPipeSegment", "IfcPipeSegmentType" }); - yield return new PropertySetInfo("Pset_PipeFittingOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcPipeFitting" }); + yield return new PropertySetInfo("Pset_PipeFittingOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."} }, new [] { "IfcPipeFitting" }); yield return new PropertySetInfo("Pset_PipeFittingPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcPipeFitting" }); - yield return new PropertySetInfo("Pset_PipeFittingTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FittingLossFactor", "IfcReal") { Definition = "A factor that determines the pressure loss due to friction through the fitting."}, new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."} }, new [] { "IfcPipeFitting", "IfcPipeFittingType" }); - yield return new PropertySetInfo("Pset_PipeSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("Gradient", "IfcPositiveRatioMeasure") { Definition = "The gradient of the pipe segment."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."}, new SingleValuePropertyType("InvertElevation", "IfcLengthMeasure") { Definition = "The invert elevation relative to the datum established for the project."} }, new [] { "IfcPipeSegment" }); + yield return new PropertySetInfo("Pset_PipeFittingTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FittingLossFactor", "IfcReal") { Definition = "A factor that determines the pressure loss due to friction through the fitting."}, new SingleValuePropertyType("PressureClass", "IfcPressureMeasure") { Definition = "Nominal pressure rating of the object.\n\nThe test or rated pressure classification of the fitting."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."} }, new [] { "IfcPipeFitting", "IfcPipeFittingType" }); + yield return new PropertySetInfo("Pset_PipeSegmentOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("Gradient", "IfcPositiveRatioMeasure") { Definition = "The gradient of the pipe segment."}, new SingleValuePropertyType("InteriorRoughnessCoefficient", "IfcPositiveLengthMeasure") { Definition = "The interior roughness of the material of the object."}, new SingleValuePropertyType("InvertElevation", "IfcLengthMeasure") { Definition = "The invert elevation relative to the datum established for the project."} }, new [] { "IfcPipeSegment" }); yield return new PropertySetInfo("Pset_PipeSegmentPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcPipeSegment" }); yield return new PropertySetInfo("Pset_PipeSegmentTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("InnerDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual inner diameter of the object."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object."}, new SingleValuePropertyType("OuterDiameter", "IfcPositiveLengthMeasure") { Definition = "The actual outer diameter of the object."}, new SingleValuePropertyType("PressureRange", "IfcPressureMeasure") { Definition = "Allowable maximum and minimum working pressure (relative to ambient pressure)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."}, new SingleValuePropertyType("WorkingPressure", "IfcPressureMeasure") { Definition = "Working pressure."} }, new [] { "IfcPipeSegment", "IfcPipeSegmentType" }); yield return new PropertySetInfo("Pset_PipeSegmentTypeCulvert", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth."}, new SingleValuePropertyType("InternalWidth", "IfcPositiveLengthMeasure") { Definition = "The internal width of the culvert."} }, new [] { "IfcPipeSegment", "IfcPipeSegmentType" }); - yield return new PropertySetInfo("Pset_PipeSegmentTypeGutter", new IPropertyTypeInfo[] { new EnumerationPropertyType("Complementaryfunction", new [] { "DISPERSING_WELLS", "LIFTING_WATER_WELLS", "TRANSVERSAL_WATER_REMOVAL", "OTHER", "NOTKNOWN", "NOTDEFINED" } ) { Definition = "Indicates the complementary function of the drain channel."}, new SingleValuePropertyType("FlowRating", "IfcVolumetricFlowRateMeasure") { Definition = "Actual flow capacity for the gutter. Value of 0.00 means this value has not been set."}, new SingleValuePropertyType("IsCovered", "IfcBoolean") { Definition = "This property defines if the drain channel has a cover (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsMonitored", "IfcBoolean") { Definition = "This property defines if the Drain Chanel is monitored (TRUE) or not (FALSE)."}, new SingleValuePropertyType("OrthometricHeight", "IfcLengthMeasure") { Definition = "The orthometric height is the vertical distance H along the plumb line from a point of interest to a reference surface known as the geoid, the vertical datum that approximates mean sea level."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."} }, new [] { "IfcPipeSegment", "IfcPipeSegmentType" }); + yield return new PropertySetInfo("Pset_PipeSegmentTypeGutter", new IPropertyTypeInfo[] { new EnumerationPropertyType("Complementaryfunction", new [] { "DISPERSING_WELLS", "LIFTING_WATER_WELLS", "TRANSVERSAL_WATER_REMOVAL", "OTHER", "NOTKNOWN", "NOTDEFINED" } ) { Definition = "Indicates the complementary function of the drain channel."}, new SingleValuePropertyType("FlowRating", "IfcVolumetricFlowRateMeasure") { Definition = "Actual flow capacity for the gutter. Value of 0.00 means this value has not been set."}, new SingleValuePropertyType("IsCovered", "IfcBoolean") { Definition = "This property defines if the drain channel has a cover (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsMonitored", "IfcBoolean") { Definition = "This property defines if the Drain Channel is monitored (TRUE) or not (FALSE)."}, new SingleValuePropertyType("OrthometricHeight", "IfcLengthMeasure") { Definition = "The orthometric height is the vertical distance H along the plumb line from a point of interest to a reference surface known as the geoid, the vertical datum that approximates mean sea level."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only.\n\nAngle of the gutter to allow for drainage."} }, new [] { "IfcPipeSegment", "IfcPipeSegmentType" }); yield return new PropertySetInfo("Pset_PlateCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcPlate", "IfcPlateType" }); yield return new PropertySetInfo("Pset_PointMachine", new IPropertyTypeInfo[] { new SingleValuePropertyType("ActionBarMovementLength", "IfcPositiveLengthMeasure") { Definition = "The movement of the bar that pulls the point of a turnout."}, new SingleValuePropertyType("ConversionTime", "IfcTimeMeasure") { Definition = "Turnout conversion completion time."}, new SingleValuePropertyType("Current", "IfcElectricCurrentMeasure") { Definition = "The actual current and operable range."}, new SingleValuePropertyType("HasLockInside", "IfcBoolean") { Definition = "Indicates whether the locking is inside (TRUE) or outside (FALSE) of the point machine."}, new SingleValuePropertyType("LockingForce", "IfcForceMeasure") { Definition = "Locking force of the point machine motor."}, new SingleValuePropertyType("MarkingRodMovementLength", "IfcPositiveLengthMeasure") { Definition = "The length of the movement bar which indicates the turnout position."}, new SingleValuePropertyType("MaximumOperatingTime", "IfcTimeMeasure") { Definition = "The maximum duration of the turnout movement before the interlocking turns to out of control status."}, new SingleValuePropertyType("MinimumOperatingSpeed", "IfcAngularVelocityMeasure") { Definition = "Minimum operating speed of the point machine."}, new SingleValuePropertyType("TractionForce", "IfcForceMeasure") { Definition = "Traction force of the point machine in turnout conversion."} }, new [] { "IfcActuator", "IfcActuator", "IfcActuator", "IfcActuator", "IfcActuatorType", "IfcActuatorType", "IfcActuatorType", "IfcActuatorType" }); yield return new PropertySetInfo("Pset_PowerControlSystem", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionSystem" }); @@ -1135,69 +1138,69 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_PrecastConcreteElementGeneral", new IPropertyTypeInfo[] { new SingleValuePropertyType("BatterAtEnd", "IfcPlaneAngleMeasure") { Definition = "The angle, in radians, by which the formwork at the ending face of a piece is to be rotated from the vertical in order to compensate for the rotation of the face that will occur once the piece is stripped from its form, inducing camber due to eccentric prestressing."}, new SingleValuePropertyType("BatterAtStart", "IfcPlaneAngleMeasure") { Definition = "The angle, in radians, by which the formwork at the starting face of a piece is to be rotated from the vertical in order to compensate for the rotation of the face that will occur once the piece is stripped from its form, inducing camber due to eccentric prestressing."}, new SingleValuePropertyType("CamberAtMidspan", "IfcRatioMeasure") { Definition = "The camber deflection, measured from the midpoint of a cambered face of a piece to the midpoint of the chord joining the ends of the same face, as shown in the figure below, divided by the original (nominal) straight length of the face of the piece."}, new SingleValuePropertyType("CornerChamfer", "IfcPositiveLengthMeasure") { Definition = "The chamfer in the corners of the precast element. The chamfer is presumed to be equal in both directions."}, new SingleValuePropertyType("DesignLocationNumber", "IfcLabel") { Definition = "Defines a unique location within a structure, the ‘slot’ for which the piece was designed."}, new SingleValuePropertyType("FormStrippingStrength", "IfcPressureMeasure") { Definition = "The minimum required compressive strength of the concrete at form stripping time."}, new SingleValuePropertyType("HollowCorePlugging", "IfcLabel") { Definition = "A descriptive label for how the hollow core ends are treated: they may be left open, closed with a plug, or sealed with cast concrete. Values would be, for example: 'Unplugged', 'Plugged', 'SealedWithConcrete'. This property applies to hollow core slabs only."}, new SingleValuePropertyType("InitialTension", "IfcPressureMeasure") { Definition = "The initial stress of the tendon. This property applies to prestressed concrete elements only."}, new SingleValuePropertyType("LiftingStrength", "IfcPressureMeasure") { Definition = "The minimum required compressive strength of the concrete when the concrete element is lifted."}, new SingleValuePropertyType("ManufacturingToleranceClass", "IfcLabel") { Definition = "Classification designation of the manufacturing tolerances according to local standards."}, new SingleValuePropertyType("MinimumAllowableSupportLength", "IfcPositiveLengthMeasure") { Definition = "The minimum allowable support length."}, new SingleValuePropertyType("PieceMark", "IfcLabel") { Definition = "Defines a unique piece for production purposes. All pieces with the same piece mark value are identical and interchangeable. The piece mark may be composed of sub-parts that have specific locally defined meaning (e.g. B-1A may denote a beam, of generic type ‘1’ and specific shape ‘A’)."}, new SingleValuePropertyType("ReleaseStrength", "IfcPressureMeasure") { Definition = "The minimum required compressive strength of the concrete when the tendon stress is released. This property applies to prestressed concrete elements only."}, new SingleValuePropertyType("Shortening", "IfcRatioMeasure") { Definition = "The ratio of the distance by which a precast piece is shortened after release from its form (due to compression induced by prestressing) to its original (nominal) length."}, new SingleValuePropertyType("SupportDuringTransportDescription", "IfcText") { Definition = "Textual description of how the concrete element is supported during transportation."}, new SingleValuePropertyType("TendonRelaxation", "IfcPositiveRatioMeasure") { Definition = "The maximum allowable relaxation of the tendon (usually expressed as %/1000 h).This property applies to prestressed concrete elements only."}, new SingleValuePropertyType("TransportationStrength", "IfcPressureMeasure") { Definition = "The minimum required compressive strength of the concrete required for transportation."}, new SingleValuePropertyType("Twisting", "IfcPlaneAngleMeasure") { Definition = "The angle, in radians, through which the end face of a precast piece is rotated with respect to its starting face, along its longitudinal axis, as a result of non-aligned supports. This measure is also termed the ‘warping’ angle."}, new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcBeam", "IfcBuildingElementProxy", "IfcChimney", "IfcCivilElement", "IfcColumn", "IfcFooting", "IfcMember", "IfcPile", "IfcPlate", "IfcRampFlight", "IfcRamp", "IfcRoof", "IfcSlab", "IfcStairFlight", "IfcStair", "IfcWall", "IfcBeamType", "IfcBuildingElementProxyType", "IfcChimneyType", "IfcCivilElementType", "IfcColumnType", "IfcFootingType", "IfcMemberType", "IfcPileType", "IfcPlateType", "IfcRampFlightType", "IfcRampType", "IfcRoofType", "IfcSlabType", "IfcStairFlightType", "IfcStairType", "IfcWallType" }); yield return new PropertySetInfo("Pset_PrecastKerbStone", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcKerb", "IfcKerbType" }); yield return new PropertySetInfo("Pset_PrecastSlab", new IPropertyTypeInfo[] { new SingleValuePropertyType("AngleBetweenComponentAxes", "IfcPlaneAngleMeasure") { Definition = "The angle between the axes of each pair of components."}, new SingleValuePropertyType("AngleToFirstAxis", "IfcPlaneAngleMeasure") { Definition = "The angle of rotation of the axis of the first component relative to the ‘West’ edge of the slab."}, new SingleValuePropertyType("DistanceBetweenComponentAxes", "IfcPositiveLengthMeasure") { Definition = "The distance between the axes of the components, measured along the ‘South’ edge of the slab."}, new SingleValuePropertyType("EdgeDistanceToFirstAxis", "IfcPositiveLengthMeasure") { Definition = "The distance from the left (‘West’) edge of the slab (in the direction of span of the components) to the axis of the first component."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalToppingThickness", "IfcPositiveLengthMeasure") { Definition = "The nominal thickness of the topping."}, new SingleValuePropertyType("ToppingType", "IfcLabel") { Definition = "Defines if a topping is applied and what kind. Values are “Full topping”, “Perimeter Wash”, “None”"}, new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcSlab", "IfcSlabType" }); - yield return new PropertySetInfo("Pset_ProcessCapacity", new IPropertyTypeInfo[] { new SingleValuePropertyType("ProcessCapacity", "IfcCountMeasure") { Definition = "The number of units that can be processed in the time defined in ProcessPerformance"}, new EnumerationPropertyType("ProcessItem", new [] { "BARREL", "CGT", "PASSENGER", "TEU", "TONNE", "VEHICLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of item (and its measurement method) being modelled within a process. This can be cargo, passengers or vehicles that pass through the system."}, new SingleValuePropertyType("ProcessPerformance", "IfcDuration") { Definition = "Minimum time to accept or dispatch the entire item capacity."} }, new [] { "IfcBuiltSystem", "IfcDistributionSystem", "IfcDoor", "IfcSpace", "IfcSpatialElementType", "IfcTransportationDevice", "IfcTransportationDeviceType", "IfcZone", "IfcDoorType", "IfcSpaceType", "IfcSpatialElement", "IfcTransportationDeviceType", "IfcTransportationDevice" }); + yield return new PropertySetInfo("Pset_ProcessCapacity", new IPropertyTypeInfo[] { new SingleValuePropertyType("ProcessCapacity", "IfcCountMeasure") { Definition = "The number of units that can be processed in the time defined in ProcessPerformance"}, new EnumerationPropertyType("ProcessItem", new [] { "BARREL", "CGT", "PASSENGER", "TEU", "TONNE", "VEHICLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of item (and its measurement method) being modelled within a process. This can be cargo, passengers or vehicles that pass through the system."}, new SingleValuePropertyType("ProcessPerformance", "IfcDuration") { Definition = "Minimum time to accept or dispatch the entire item capacity."} }, new [] { "IfcBuiltSystem", "IfcDistributionSystem", "IfcDoor", "IfcSpace", "IfcTransportationDevice", "IfcZone", "IfcDoorType", "IfcSpaceType", "IfcTransportationDeviceType" }); yield return new PropertySetInfo("Pset_ProfileArbitraryDoubleT", new IPropertyTypeInfo[] { new SingleValuePropertyType("FlangeBaseFillet", "IfcNonNegativeLengthMeasure") { Definition = "Flange base fillet of the profile."}, new SingleValuePropertyType("FlangeChamfer", "IfcNonNegativeLengthMeasure") { Definition = "Flange chamfer of the profile."}, new SingleValuePropertyType("FlangeDepth", "IfcPositiveLengthMeasure") { Definition = "Flange depth of the profile."}, new SingleValuePropertyType("FlangeDraft", "IfcNonNegativeLengthMeasure") { Definition = "Flange draft of the profile."}, new SingleValuePropertyType("FlangeTopFillet", "IfcNonNegativeLengthMeasure") { Definition = "Flange top fillet of the profile."}, new SingleValuePropertyType("LeftFlangeWidth", "IfcPositiveLengthMeasure") { Definition = "Left flange width of the profile."}, new SingleValuePropertyType("OverallDepth", "IfcPositiveLengthMeasure") { Definition = "Overall depth of the profile."}, new SingleValuePropertyType("OverallWidth", "IfcPositiveLengthMeasure") { Definition = "Overall width of the profile."}, new SingleValuePropertyType("RightFlangeWidth", "IfcPositiveLengthMeasure") { Definition = "Right flange width of the profile."}, new SingleValuePropertyType("StemBaseChamfer", "IfcNonNegativeLengthMeasure") { Definition = "Stem base chamfer of the profile."}, new SingleValuePropertyType("StemBaseFillet", "IfcNonNegativeLengthMeasure") { Definition = "Stem base fillet of the profile."}, new SingleValuePropertyType("StemBaseWidth", "IfcPositiveLengthMeasure") { Definition = "Stem base width of the profile."}, new SingleValuePropertyType("StemTopChamfer", "IfcNonNegativeLengthMeasure") { Definition = "Stem top chamfer of the profile."}, new SingleValuePropertyType("StemTopFillet", "IfcNonNegativeLengthMeasure") { Definition = "Stem top fillet of the profile."}, new SingleValuePropertyType("StemTopWidth", "IfcPositiveLengthMeasure") { Definition = "Stem top width of the profile."} }, new [] { "IfcArbitraryClosedProfileDef" }); yield return new PropertySetInfo("Pset_ProfileArbitraryHollowCore", new IPropertyTypeInfo[] { new SingleValuePropertyType("BaseChamfer", "IfcNonNegativeLengthMeasure") { Definition = "Base chamfer of the profile."}, new SingleValuePropertyType("BottomCover", "IfcPositiveLengthMeasure") { Definition = "Bottom cover of the profile."}, new SingleValuePropertyType("CenterCoreBaseHeight", "IfcPositiveLengthMeasure") { Definition = "Center core base height of the profile."}, new SingleValuePropertyType("CenterCoreBaseWidth", "IfcPositiveLengthMeasure") { Definition = "Center core base width of the profile."}, new SingleValuePropertyType("CenterCoreMiddleHeight", "IfcPositiveLengthMeasure") { Definition = "Center core middle height of the profile."}, new SingleValuePropertyType("CenterCoreSpacing", "IfcPositiveLengthMeasure") { Definition = "Center core spacing of the profile."}, new SingleValuePropertyType("CenterCoreTopHeight", "IfcPositiveLengthMeasure") { Definition = "Center core top height of the profile."}, new SingleValuePropertyType("CenterCoreTopWidth", "IfcPositiveLengthMeasure") { Definition = "Center core top width of the profile."}, new SingleValuePropertyType("CoreBaseHeight", "IfcPositiveLengthMeasure") { Definition = "Core base height of the profile."}, new SingleValuePropertyType("CoreBaseWidth", "IfcPositiveLengthMeasure") { Definition = "Core base width of the profile."}, new SingleValuePropertyType("CoreMiddleHeight", "IfcPositiveLengthMeasure") { Definition = "Core middle height of the profile."}, new SingleValuePropertyType("CoreSpacing", "IfcPositiveLengthMeasure") { Definition = "Core spacing of the profile."}, new SingleValuePropertyType("CoreTopHeight", "IfcPositiveLengthMeasure") { Definition = "Core top height of the profile."}, new SingleValuePropertyType("CoreTopWidth", "IfcPositiveLengthMeasure") { Definition = "Core top width of the profile."}, new SingleValuePropertyType("DraftBaseOffset", "IfcNonNegativeLengthMeasure") { Definition = "Draft base offset of the profile."}, new SingleValuePropertyType("DraftSideOffset", "IfcNonNegativeLengthMeasure") { Definition = "Draft side offset of the profile."}, new SingleValuePropertyType("EdgeDraft", "IfcNonNegativeLengthMeasure") { Definition = "Edge draft of the profile."}, new SingleValuePropertyType("KeyDepth", "IfcNonNegativeLengthMeasure") { Definition = "Key depth of the profile."}, new SingleValuePropertyType("KeyHeight", "IfcNonNegativeLengthMeasure") { Definition = "Key height of the profile."}, new SingleValuePropertyType("KeyOffset", "IfcNonNegativeLengthMeasure") { Definition = "Key offset of the profile."}, new SingleValuePropertyType("NumberOfCores", "IfcCountMeasure") { Definition = "The number of cores."}, new SingleValuePropertyType("OverallDepth", "IfcPositiveLengthMeasure") { Definition = "Overall depth of the profile."}, new SingleValuePropertyType("OverallWidth", "IfcPositiveLengthMeasure") { Definition = "Overall width of the profile."} }, new [] { "IfcArbitraryProfileDefWithVoids" }); - yield return new PropertySetInfo("Pset_ProfileMechanical", new IPropertyTypeInfo[] { new SingleValuePropertyType("CentreOfGravityInX", "IfcLengthMeasure") { Definition = "Location of the profile's centre of gravity (geometric centroid), measured along xp."}, new SingleValuePropertyType("CentreOfGravityInY", "IfcLengthMeasure") { Definition = "Location of the profile's centre of gravity (geometric centroid), measured along yp."}, new SingleValuePropertyType("CrossSectionArea", "IfcAreaMeasure") { Definition = "Total area of the cross section (or profile) of the object."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MaximumPlateThickness", "IfcPositiveLengthMeasure") { Definition = "This value may be needed for stress analysis and to handle buckling problems. It can also be derived from the given profile geometry or classification and therefore it is only an optional feature allowing for an explicit description. For example measured in mm."}, new SingleValuePropertyType("MaximumSectionModulusY", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the ys axis at the point with maximum zs ordinate. For example measured in mm³."}, new SingleValuePropertyType("MaximumSectionModulusZ", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the zs axis at the point with maximum ys ordinate. For example measured in mm³."}, new SingleValuePropertyType("MinimumPlateThickness", "IfcPositiveLengthMeasure") { Definition = "This value may be needed for stress analysis and to handle buckling problems. It can also be derived from the given profile geometry or classification and therefore it is only an optional feature allowing for an explicit description. For example measured in mm."}, new SingleValuePropertyType("MinimumSectionModulusY", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the ys axis at the point with minimum zs ordinate. For example measured in mm³."}, new SingleValuePropertyType("MinimumSectionModulusZ", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the zs axis at the point with minimum ys ordinate. For example measured in mm³."}, new SingleValuePropertyType("MomentOfInertiaY", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about ys (second moment of area, about ys). For example measured in mm4."}, new SingleValuePropertyType("MomentOfInertiaYZ", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about ys and zs (product moment of area). For example measured in mm4."}, new SingleValuePropertyType("MomentOfInertiaZ", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about zs (second moment of area, about zs). For example measured in mm4"}, new SingleValuePropertyType("Perimeter", "IfcPositiveLengthMeasure") { Definition = "Perimeter of the object."}, new SingleValuePropertyType("PlasticShapeFactorY", "IfcPositiveRatioMeasure") { Definition = "Ratio of plastic versus elastic bending moment capacity about the section analysis axis ys. A dimensionless value."}, new SingleValuePropertyType("PlasticShapeFactorZ", "IfcPositiveRatioMeasure") { Definition = "Ratio of plastic versus elastic bending moment capacity about the section analysis axis zs. A dimensionless value."}, new SingleValuePropertyType("ShearAreaY", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear stress due to shear force parallel to the section analysis axis ys. For example measured in mm². If given, the shear area ys shall be non-negative."}, new SingleValuePropertyType("ShearAreaZ", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear stress due to shear force parallel to the section analysis axis zs. For example measured in mm². If given, the shear area zs shall be non-negative."}, new SingleValuePropertyType("ShearCentreY", "IfcLengthMeasure") { Definition = "Location of the profile's shear centre, measured along ys."}, new SingleValuePropertyType("ShearCentreZ", "IfcLengthMeasure") { Definition = "Location of the profile's shear centre, measured along zs."}, new SingleValuePropertyType("ShearDeformationAreaY", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear deformation due to a shear force parallel to ys. For example measured in mm². If given, the shear deformation area ys shall be non-negative."}, new SingleValuePropertyType("ShearDeformationAreaZ", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear deformation due to a shear force parallel to zs. For example measured in mm². If given, the shear deformation area zs shall be non-negative."}, new SingleValuePropertyType("TorsionalConstantX", "IfcMomentOfInertiaMeasure") { Definition = "Torsional constant about xs. For example measured in mm4."}, new SingleValuePropertyType("TorsionalSectionModulus", "IfcSectionModulusMeasure") { Definition = "Torsional resistance (about xs). For example measured in mm³."}, new SingleValuePropertyType("WarpingConstant", "IfcWarpingConstantMeasure") { Definition = "Warping constant of the profile for torsional action. For example measured in mm6."} }, new [] { "IfcProfileDef" }); + yield return new PropertySetInfo("Pset_ProfileMechanical", new IPropertyTypeInfo[] { new SingleValuePropertyType("CentreOfGravityInX", "IfcLengthMeasure") { Definition = "Location of the profile's centre of gravity (geometric centroid), measured along xp."}, new SingleValuePropertyType("CentreOfGravityInY", "IfcLengthMeasure") { Definition = "Location of the profile's centre of gravity (geometric centroid), measured along yp."}, new SingleValuePropertyType("CrossSectionArea", "IfcAreaMeasure") { Definition = "Total area of the cross section (or profile) of the object."}, new SingleValuePropertyType("MassPerLength", "IfcMassPerLengthMeasure") { Definition = "Mass per length, i.e. mass of a beam with a unit length of extrusion. For example measured in kg/m."}, new SingleValuePropertyType("MaximumPlateThickness", "IfcPositiveLengthMeasure") { Definition = "This value may be needed for stress analysis and to handle buckling problems. It can also be derived from the given profile geometry or classification and therefore it is only an optional feature allowing for an explicit description. For example measured in mm."}, new SingleValuePropertyType("MaximumSectionModulusY", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the ys axis at the point with maximum zs ordinate. For example measured in mm³."}, new SingleValuePropertyType("MaximumSectionModulusZ", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the zs axis at the point with maximum ys ordinate. For example measured in mm³."}, new SingleValuePropertyType("MinimumPlateThickness", "IfcPositiveLengthMeasure") { Definition = "This value may be needed for stress analysis and to handle buckling problems. It can also be derived from the given profile geometry or classification and therefore it is only an optional feature allowing for an explicit description. For example measured in mm."}, new SingleValuePropertyType("MinimumSectionModulusY", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the ys axis at the point with minimum zs ordinate. For example measured in mm³."}, new SingleValuePropertyType("MinimumSectionModulusZ", "IfcSectionModulusMeasure") { Definition = "Bending resistance about the zs axis at the point with minimum ys ordinate. For example measured in mm³."}, new SingleValuePropertyType("MomentOfInertiaY", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about ys (second moment of area, about ys). For example measured in mm4."}, new SingleValuePropertyType("MomentOfInertiaYZ", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about ys and zs (product moment of area). For example measured in mm4."}, new SingleValuePropertyType("MomentOfInertiaZ", "IfcMomentOfInertiaMeasure") { Definition = "Moment of inertia about zs (second moment of area, about zs). For example measured in mm4"}, new SingleValuePropertyType("Perimeter", "IfcPositiveLengthMeasure") { Definition = "Perimeter of the object.\n\nPerimeter of the profile for calculating the surface area. For example measured in mm."}, new SingleValuePropertyType("PlasticShapeFactorY", "IfcPositiveRatioMeasure") { Definition = "Ratio of plastic versus elastic bending moment capacity about the section analysis axis ys. A dimensionless value."}, new SingleValuePropertyType("PlasticShapeFactorZ", "IfcPositiveRatioMeasure") { Definition = "Ratio of plastic versus elastic bending moment capacity about the section analysis axis zs. A dimensionless value."}, new SingleValuePropertyType("ShearAreaY", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear stress due to shear force parallel to the section analysis axis ys. For example measured in mm². If given, the shear area ys shall be non-negative."}, new SingleValuePropertyType("ShearAreaZ", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear stress due to shear force parallel to the section analysis axis zs. For example measured in mm². If given, the shear area zs shall be non-negative."}, new SingleValuePropertyType("ShearCentreY", "IfcLengthMeasure") { Definition = "Location of the profile's shear centre, measured along ys."}, new SingleValuePropertyType("ShearCentreZ", "IfcLengthMeasure") { Definition = "Location of the profile's shear centre, measured along zs."}, new SingleValuePropertyType("ShearDeformationAreaY", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear deformation due to a shear force parallel to ys. For example measured in mm². If given, the shear deformation area ys shall be non-negative."}, new SingleValuePropertyType("ShearDeformationAreaZ", "IfcAreaMeasure") { Definition = "Area of the profile for calculating the shear deformation due to a shear force parallel to zs. For example measured in mm². If given, the shear deformation area zs shall be non-negative."}, new SingleValuePropertyType("TorsionalConstantX", "IfcMomentOfInertiaMeasure") { Definition = "Torsional constant about xs. For example measured in mm4."}, new SingleValuePropertyType("TorsionalSectionModulus", "IfcSectionModulusMeasure") { Definition = "Torsional resistance (about xs). For example measured in mm³."}, new SingleValuePropertyType("WarpingConstant", "IfcWarpingConstantMeasure") { Definition = "Warping constant of the profile for torsional action. For example measured in mm6."} }, new [] { "IfcProfileDef" }); yield return new PropertySetInfo("Pset_ProjectCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FundingSource", "IfcLabel") { Definition = "Investment funding source"}, new SingleValuePropertyType("PaybackPeriod", "IfcDuration") { Definition = "Payback period of investment"}, new EnumerationPropertyType("ProjectType", new [] { "MODIFICATION", "NEWBUILD", "OPERATIONMAINTENANCE", "RENOVATION", "REPAIR" } ) { Definition = "Additional typing of a project"}, new SingleValuePropertyType("ROI", "IfcRatioMeasure") { Definition = "Return on Investment"} }, new [] { "IfcProject" }); yield return new PropertySetInfo("Pset_ProjectOrderChangeOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("BudgetSource", "IfcText") { Definition = "The budget source requested."}, new SingleValuePropertyType("ReasonForChange", "IfcText") { Definition = "A description of the problem for why a change is needed."} }, new [] { "IfcProjectOrder" }); - yield return new PropertySetInfo("Pset_ProjectOrderMaintenanceWorkOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContractualType", "IfcText") { Definition = "The contractual type of the work."}, new EnumerationPropertyType("FaultPriorityType", new [] { "HIGH", "LOW", "MEDIUM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of priority that can be assigned from which the type may be set where:High: action is required urgently.\nMedium: action can occur within a reasonable period of time.\nLow: action can occur when convenient."}, new SingleValuePropertyType("IfNotAccomplished", "IfcText") { Definition = "Comments if the job is not accomplished."}, new EnumerationPropertyType("LocationPriorityType", new [] { "HIGH", "LOW", "MEDIUM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of priority that can be assigned from which the type may be set where:High: action is required urgently.\nMedium: action can occur within a reasonable period of time.\nLow: action can occur when convenient."}, new EnumerationPropertyType("MaintenaceType", new [] { "CONDITIONBASED", "CORRECTIVE", "PLANNEDCORRECTIVE", "SCHEDULED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of maintenance that can be done from which the type that generates the maintenance work order may be set where:ConditionBased: generated as a result of the condition of an asset or artefact being less than a determined value.\nCorrective: generated as a result of an immediate and urgent need for maintenance action.\nPlannedCorrective: generated as a result of immediate corrective action being needed but with sufficient time available for the work order to be included in maintenance planning.\nScheduled: generated as a result of a fixed, periodic maintenance requirement."}, new SingleValuePropertyType("ProductDescription", "IfcText") { Definition = "A textual description of the products that require the work."}, new SingleValuePropertyType("ScheduledFrequency", "IfcTimeMeasure") { Definition = "The period of time between expected instantiations of a work order that may have been predefined."}, new SingleValuePropertyType("WorkTypeRequested", "IfcText") { Definition = "Work type requested in circumstances where there are categorizations of types of work task. It could be used to identify a remedial task, minor work task, electrical task etc."} }, new [] { "IfcProjectOrder" }); + yield return new PropertySetInfo("Pset_ProjectOrderMaintenanceWorkOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContractualType", "IfcText") { Definition = "The contractual type of the work."}, new EnumerationPropertyType("FaultPriorityType", new [] { "HIGH", "LOW", "MEDIUM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of priority that can be assigned from which the type may be set where:High: action is required urgently.\nMedium: action can occur within a reasonable period of time.\nLow: action can occur when convenient."}, new SingleValuePropertyType("IfNotAccomplished", "IfcText") { Definition = "Comments if the job is not accomplished."}, new EnumerationPropertyType("LocationPriorityType", new [] { "HIGH", "LOW", "MEDIUM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of priority that can be assigned from which the type may be set where:High: action is required urgently.\nMedium: action can occur within a reasonable period of time.\nLow: action can occur when convenient."}, new EnumerationPropertyType("MaintenanceType", new [] { "CONDITIONBASED", "CORRECTIVE", "PLANNEDCORRECTIVE", "SCHEDULED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of maintenance that can be done from which the type that generates the maintenance work order may be set where:ConditionBased: generated as a result of the condition of an asset or artefact being less than a determined value.\nCorrective: generated as a result of an immediate and urgent need for maintenance action.\nPlannedCorrective: generated as a result of immediate corrective action being needed but with sufficient time available for the work order to be included in maintenance planning.\nScheduled: generated as a result of a fixed, periodic maintenance requirement."}, new SingleValuePropertyType("ProductDescription", "IfcText") { Definition = "A textual description of the products that require the work."}, new SingleValuePropertyType("ScheduledFrequency", "IfcTimeMeasure") { Definition = "The period of time between expected instantiations of a work order that may have been predefined."}, new SingleValuePropertyType("WorkTypeRequested", "IfcText") { Definition = "Work type requested in circumstances where there are categorizations of types of work task. It could be used to identify a remedial task, minor work task, electrical task etc."} }, new [] { "IfcProjectOrder" }); yield return new PropertySetInfo("Pset_ProjectOrderMoveOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("SpecialInstructions", "IfcText") { Definition = "Special instructions."} }, new [] { "IfcProjectOrder" }); yield return new PropertySetInfo("Pset_ProjectOrderPurchaseOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsFOB", "IfcBoolean") { Definition = "Indication of whether contents of the purchase order are delivered 'Free on Board' (= True) or not (= False). FOB is a shipping term which indicates that the supplier pays the shipping costs (and usually also the insurance costs) from the point of manufacture to a specified destination, at which point the buyer takes responsibility."}, new SingleValuePropertyType("ShipMethod", "IfcText") { Definition = "Method of shipping that will be used for goods or services."} }, new [] { "IfcProjectOrder" }); yield return new PropertySetInfo("Pset_ProjectOrderWorkOrder", new IPropertyTypeInfo[] { new SingleValuePropertyType("ContractualType", "IfcText") { Definition = "The contractual type of the work."}, new SingleValuePropertyType("IfNotAccomplished", "IfcText") { Definition = "Comments if the job is not accomplished."}, new SingleValuePropertyType("ProductDescription", "IfcText") { Definition = "A textual description of the products that require the work."}, new SingleValuePropertyType("WorkTypeRequested", "IfcText") { Definition = "Work type requested in circumstances where there are categorizations of types of work task. It could be used to identify a remedial task, minor work task, electrical task etc."} }, new [] { "IfcProjectOrder" }); - yield return new PropertySetInfo("Pset_PropertyAgreement", new IPropertyTypeInfo[] { new SingleValuePropertyType("AgreementDate", "IfcDate") { Definition = "The date on which the version of the agreement became applicable."}, new EnumerationPropertyType("AgreementType", new [] { "ASSIGNMENT", "LEASE", "TENANT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of property agreement from which the type required may be set."}, new SingleValuePropertyType("AgreementVersion", "IfcLabel") { Definition = "The version number of the agreement that is identified."}, new SingleValuePropertyType("CommencementDate", "IfcDate") { Definition = "Date on which the agreement commences."}, new SingleValuePropertyType("ConditionCommencement", "IfcText") { Definition = "Condition of property provided on commencement of the agreement e.g. cold shell, warm lit shell, broom clean, turn-key."}, new SingleValuePropertyType("ConditionTermination", "IfcText") { Definition = "Condition of property required on termination of the agreement e.g. cold shell, warm lit shell, broom clean, turn-key."}, new SingleValuePropertyType("Duration", "IfcDuration") { Definition = "Duration."}, new SingleValuePropertyType("Options", "IfcText") { Definition = "A statement of the options available in the agreement."}, new SingleValuePropertyType("PropertyName", "IfcLabel") { Definition = "Addressing details of the property as stated within the agreement."}, new SingleValuePropertyType("Restrictions", "IfcText") { Definition = "Restrictions that may be placed by a competent authority."}, new SingleValuePropertyType("TerminationDate", "IfcDate") { Definition = "Date on which the agreement terminates."}, new SingleValuePropertyType("TrackingIdentifier", "IfcIdentifier") { Definition = "The identifier assigned to the agreement for the purposes of tracking."} }, new [] { "IfcSpatialStructureElement", "IfcSpatialStructureElementType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitI2TCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_PropertyAgreement", new IPropertyTypeInfo[] { new SingleValuePropertyType("AgreementDate", "IfcDate") { Definition = "The date on which the version of the agreement became applicable."}, new EnumerationPropertyType("AgreementType", new [] { "ASSIGNMENT", "LEASE", "TENANT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of property agreement from which the type required may be set."}, new SingleValuePropertyType("AgreementVersion", "IfcLabel") { Definition = "The version number of the agreement that is identified."}, new SingleValuePropertyType("CommencementDate", "IfcDate") { Definition = "Date on which the agreement commences."}, new SingleValuePropertyType("ConditionCommencement", "IfcText") { Definition = "Condition of property provided on commencement of the agreement e.g. cold shell, warm lit shell, broom clean, turn-key."}, new SingleValuePropertyType("ConditionTermination", "IfcText") { Definition = "Condition of property required on termination of the agreement e.g. cold shell, warm lit shell, broom clean, turn-key."}, new SingleValuePropertyType("Duration", "IfcDuration") { Definition = "Duration.\n\nThe period of time for the lease."}, new SingleValuePropertyType("Options", "IfcText") { Definition = "A statement of the options available in the agreement."}, new SingleValuePropertyType("PropertyName", "IfcLabel") { Definition = "Addressing details of the property as stated within the agreement."}, new SingleValuePropertyType("Restrictions", "IfcText") { Definition = "Restrictions that may be placed by a competent authority."}, new SingleValuePropertyType("TerminationDate", "IfcDate") { Definition = "Date on which the agreement terminates."}, new SingleValuePropertyType("TrackingIdentifier", "IfcIdentifier") { Definition = "The identifier assigned to the agreement for the purposes of tracking."} }, new [] { "IfcSpatialStructureElement", "IfcSpatialStructureElementType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitI2TCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured.\n\nA set of nominal currents in [A] for which the data of this instance is valid. At least one value shall be provided. Any value in the set shall not exceed the value of the\nUltimateRatedCurrent associated with the same breaker unit."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitI2TFuseCurve", new IPropertyTypeInfo[] { new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitIPICurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitTypeMCB", new IPropertyTypeInfo[] { new SingleValuePropertyType("ICN60898", "IfcElectricCurrentMeasure") { Definition = "The nominal breaking capacity in [A] for an MCB tested in accordance with the IEC 60898 series."}, new SingleValuePropertyType("ICS60898", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an MCB tested in accordance with the IEC 60898 series."}, new SingleValuePropertyType("ICS60947", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICU60947", "IfcElectricCurrentMeasure") { Definition = "The ultimate breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W]."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitIPICurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured.\n\nA set of nominal currents in [A] for which the data of this instance is valid. At least one value shall be provided. Any value in the set shall not exceed the value of the\nUltimateRatedCurrent associated with the same breaker unit."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitTypeMCB", new IPropertyTypeInfo[] { new SingleValuePropertyType("ICN60898", "IfcElectricCurrentMeasure") { Definition = "The nominal breaking capacity in [A] for an MCB tested in accordance with the IEC 60898 series."}, new SingleValuePropertyType("ICS60898", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an MCB tested in accordance with the IEC 60898 series."}, new SingleValuePropertyType("ICS60947", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICU60947", "IfcElectricCurrentMeasure") { Definition = "The ultimate breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W].\n\nThe power loss in [W] per pole of the MCB when the nominal current is flowing through the MCB."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceBreakerUnitTypeMotorProtection", new IPropertyTypeInfo[] { new SingleValuePropertyType("ICM60947", "IfcElectricCurrentMeasure") { Definition = "The making capacity in [A] for a circuit breaker or motor protection device tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICS60947", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICU60947", "IfcElectricCurrentMeasure") { Definition = "The ultimate breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICW60947", "IfcElectricCurrentMeasure") { Definition = "The thermal withstand current in [A] for a circuit breaker or motor protection device tested in accordance with the IEC 60947 series. The value shall be related to 1 s."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("GroundFaultCurrentSetValue", "IfcElectricCurrentMeasure") { Definition = "Ground fault current set value. The set value of the ground tripping current if adjustable."}, new SingleValuePropertyType("GroundFaultFunction", "IfcBoolean") { Definition = "Applying ground fault function. A flag indicating that the ground fault function of the device is used. The value should be set to FALSE for devices not having a ground fault function, or if the ground fault function is not selected to be used."}, new SingleValuePropertyType("GroundFaulti2tFunction", "IfcBoolean") { Definition = "Applying ground fault i2t function. A flag indicating that the I2t ground fault function of the device is used. The value should be set to TRUE only if the I2t function is explicitly selected for the device."}, new SingleValuePropertyType("GroundFaultTrippingTime", "IfcTimeMeasure") { Definition = "Ground fault tripping time. The set value of the ground fault tripping current if adjustable."}, new SingleValuePropertyType("InstantaneousCurrentSetValue", "IfcElectricCurrentMeasure") { Definition = "Instantaneous current set value. The set value of the instantaneous tripping current if adjustable."}, new SingleValuePropertyType("InstantaneousTrippingTime", "IfcTimeMeasure") { Definition = "Instantaneous tripping time. The set value of the instantaneous tripping time if adjustable."}, new SingleValuePropertyType("LongTimeCurrentSetValue", "IfcElectricCurrentMeasure") { Definition = "Long time current set value. The set value of the long time tripping current if adjustable."}, new SingleValuePropertyType("LongTimeDelay", "IfcTimeMeasure") { Definition = "Long time delay. The set value of the long time time-delay if adjustable."}, new SingleValuePropertyType("LongTimeFunction", "IfcBoolean") { Definition = "Applying long time function\nA flag indicating that the long time function (i.e. the thermal tripping) of the device is used. The value should be set to TRUE for all devices except those that allows the Long time function of the device not to be used."}, new EnumerationPropertyType("PoleUsage", new [] { "1P", "1PN", "2P", "3P", "3PN", "4P", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Pole usage."}, new SingleValuePropertyType("ShortTimeCurrentSetValue", "IfcElectricCurrentMeasure") { Definition = "Short time current set value. The set value of the long time tripping current if adjustable."}, new SingleValuePropertyType("ShortTimeFunction", "IfcBoolean") { Definition = "Applying short time function A flag indicating that the short time function of the device is used. The value should be set to FALSE for devices not having a short time function, or if the short time function is not selected to be used."}, new SingleValuePropertyType("ShortTimei2tFunction", "IfcBoolean") { Definition = "Applying short time i2t function. A flag indicating that the I2t short time function of the device is used. The value should be set to TRUE only if the I2t function  is explicitly selected for the device."}, new SingleValuePropertyType("ShortTimeTrippingTime", "IfcTimeMeasure") { Definition = "Short time tripping time. The set value of the short time tripping time if adjustable."} }, new [] { "IfcProtectiveDevice" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingCurve", new IPropertyTypeInfo[] { new EnumerationPropertyType("TrippingCurveType", new [] { "LOWER", "UPPER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of tripping curve that is represented by the property set."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionGCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%]."}, new SingleValuePropertyType("CurrentTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%] valid for times above CurrentTolereanceLimit1."}, new SingleValuePropertyType("CurrentToleranceLimit1", "IfcTimeMeasure") { Definition = "The time limit in [s] limiting the application of CurrentTolerance1, if any. If the value is set to 0, the value of the CurrentTolerance1 is valid for the whole time/current-curve."}, new SingleValuePropertyType("ExternalAdjusted", "IfcBoolean") { Definition = "An indication if the ground fault protection may be adjusted according to an external current coil or not."}, new SingleValuePropertyType("IsCurrentTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of CurrentTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("IsTimeTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of TimeTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("NominalCurrentAdjusted", "IfcBoolean") { Definition = "An indication if the tripping currents of the short time protection is related to the nominal current multiplied with the actual setting of the current adjustment, if any, of the long time protection part of the protective device, or not."}, new SingleValuePropertyType("ReleaseCurrent", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In] for the initial tripping of the S-function."}, new SingleValuePropertyType("ReleaseCurrentI2tEnd", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In]."}, new SingleValuePropertyType("ReleaseCurrentI2tStart", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In]."}, new SingleValuePropertyType("ReleaseTime", "IfcTimeMeasure") { Definition = "The release time in [s] for the initial tripping of the relevant part. This time indicates that for current lower than the indicated release current, the tripping time will be longer than the indicated release time. The value is given as a mean value."}, new SingleValuePropertyType("ReleaseTimeI2tEnd", "IfcTimeMeasure") { Definition = "The release time in [s]."}, new SingleValuePropertyType("ReleaseTimeI2tStart", "IfcTimeMeasure") { Definition = "The release time in [s]."}, new SingleValuePropertyType("TimeTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of time/current-curve in [%]."}, new SingleValuePropertyType("TimeTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of the time/current-curve in [%] valid for currents above TimeToleranceLimit1."}, new SingleValuePropertyType("TimeToleranceLimit1", "IfcElectricCurrentMeasure") { Definition = "The current limit in [x In] limiting the application of TimeTolerance1, if any. If the value is set to 0, the value of the TimeTolerance1 is valid for the whole time/current-curve."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionGCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%]."}, new SingleValuePropertyType("CurrentTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%] valid for times above CurrentTolereanceLimit1."}, new SingleValuePropertyType("CurrentToleranceLimit1", "IfcTimeMeasure") { Definition = "The time limit in [s] limiting the application of CurrentTolerance1, if any. If the value is set to 0, the value of the CurrentTolerance1 is valid for the whole time/current-curve."}, new SingleValuePropertyType("ExternalAdjusted", "IfcBoolean") { Definition = "An indication if the ground fault protection may be adjusted according to an external current coil or not."}, new SingleValuePropertyType("IsCurrentTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of CurrentTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("IsTimeTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of TimeTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("NominalCurrentAdjusted", "IfcBoolean") { Definition = "An indication if the tripping currents of the short time protection is related to the nominal current multiplied with the actual setting of the current adjustment, if any, of the long time protection part of the protective device, or not."}, new SingleValuePropertyType("ReleaseCurrent", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In] for the initial tripping of the S-function."}, new SingleValuePropertyType("ReleaseCurrentI2tEnd", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In].\n\nFor the end point of the I2t tripping curve of the G-function, if any. The value of ReleaseCurrentI2tEnd shall be larger than ReleaseCurrentI2tStart."}, new SingleValuePropertyType("ReleaseCurrentI2tStart", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In].\n\nFor the start point of the I2t tripping curve of the G-function, if any."}, new SingleValuePropertyType("ReleaseTime", "IfcTimeMeasure") { Definition = "The release time in [s] for the initial tripping of the relevant part. This time indicates that for current lower than the indicated release current, the tripping time will be longer than the indicated release time. The value is given as a mean value."}, new SingleValuePropertyType("ReleaseTimeI2tEnd", "IfcTimeMeasure") { Definition = "The release time in [s].\n\nFor the end point of the I2 tripping curve of the G-function, if any. The value of ReleaseTimeI2tEnd shall be lower than ReleaseTimeI2tStart."}, new SingleValuePropertyType("ReleaseTimeI2tStart", "IfcTimeMeasure") { Definition = "The release time in [s].\n\nFor the start point of the I2t tripping curve of the G-function, if any."}, new SingleValuePropertyType("TimeTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of time/current-curve in [%]."}, new SingleValuePropertyType("TimeTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of the time/current-curve in [%] valid for currents above TimeToleranceLimit1."}, new SingleValuePropertyType("TimeToleranceLimit1", "IfcElectricCurrentMeasure") { Definition = "The current limit in [x In] limiting the application of TimeTolerance1, if any. If the value is set to 0, the value of the TimeTolerance1 is valid for the whole time/current-curve."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionICurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%]."}, new SingleValuePropertyType("CurrentTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%] valid for times above CurrentTolereanceLimit1."}, new SingleValuePropertyType("CurrentToleranceLimit1", "IfcTimeMeasure") { Definition = "The time limit in [s] limiting the application of CurrentTolerance1, if any. If the value is set to 0, the value of the CurrentTolerance1 is valid for the whole time/current-curve."}, new SingleValuePropertyType("IsCurrentTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of CurrentTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("IsOffWhenSFunctionOn", "IfcBoolean") { Definition = "Indication whether the I-function is automatically switched off when the S-function is switched on."}, new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("IsTimeTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of TimeTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("MaxAdjustmentX_ICS", "IfcElectricCurrentMeasure") { Definition = "Provides the maximum setting value for the available current adjustment in relation to the Ics breaking capacity of the protection device of which the actual tripping unit is a part of. The value is not asserted unless the instantaneous time protection is."}, new SingleValuePropertyType("NominalCurrentAdjusted", "IfcBoolean") { Definition = "An indication if the tripping currents of the short time protection is related to the nominal current multiplied with the actual setting of the current adjustment, if any, of the long time protection part of the protective device, or not."}, new SingleValuePropertyType("ReleaseCurrent", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In] for the initial tripping of the S-function."}, new SingleValuePropertyType("ReleaseTime", "IfcTimeMeasure") { Definition = "The release time in [s] for the initial tripping of the relevant part. This time indicates that for current lower than the indicated release current, the tripping time will be longer than the indicated release time. The value is given as a mean value."}, new SingleValuePropertyType("TimeTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of time/current-curve in [%]."}, new SingleValuePropertyType("TimeTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of the time/current-curve in [%] valid for currents above TimeToleranceLimit1."}, new SingleValuePropertyType("TimeToleranceLimit1", "IfcElectricCurrentMeasure") { Definition = "The current limit in [x In] limiting the application of TimeTolerance1, if any. If the value is set to 0, the value of the TimeTolerance1 is valid for the whole time/current-curve."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionLCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("LowerCurrent1", "IfcElectricCurrentMeasure") { Definition = "The current in [x In], indicating that for currents smaller than LowerCurrent1 the I2t part of the L-function will not trip the current,"}, new SingleValuePropertyType("LowerCurrent2", "IfcElectricCurrentMeasure") { Definition = "The current in [x In], indicating the upper current limit of the lower time/current curve of the I2t part of the L-function."}, new SingleValuePropertyType("LowerTime1", "IfcTimeMeasure") { Definition = "The time in [s], indicating that tripping times of the lower time/current curve lower than LowerTime1 is determined by the I2t part of the L-function."}, new SingleValuePropertyType("LowerTime2", "IfcTimeMeasure") { Definition = "The time in [s], indicating the tripping times of the upper time/current curve at the LowerCurrent2."}, new SingleValuePropertyType("UpperCurrent1", "IfcElectricCurrentMeasure") { Definition = "The current in [x In], indicating that for currents larger than UpperCurrent1 the I2t part of the L-function will trip the current."}, new SingleValuePropertyType("UpperCurrent2", "IfcElectricCurrentMeasure") { Definition = "The current in [x In], indicating the upper current limit of the upper time/current curve of the I2t part of the L-function."}, new SingleValuePropertyType("UpperTime1", "IfcTimeMeasure") { Definition = "The time in [s], indicating that tripping times of the upper time/current curve lower than UpperTime1 is determined by the I2t part of the L-function."}, new SingleValuePropertyType("UpperTime2", "IfcTimeMeasure") { Definition = "The time in [s], indicating the tripping times of the upper time/current curve at the UpperCurrent2."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionSCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%]."}, new SingleValuePropertyType("CurrentTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%] valid for times above CurrentTolereanceLimit1."}, new SingleValuePropertyType("CurrentToleranceLimit1", "IfcTimeMeasure") { Definition = "The time limit in [s] limiting the application of CurrentTolerance1, if any. If the value is set to 0, the value of the CurrentTolerance1 is valid for the whole time/current-curve."}, new SingleValuePropertyType("IsCurrentTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of CurrentTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("IsOffWhenLfunctionOn", "IfcBoolean") { Definition = "Indication whether the S-function is automatically switched off when the I-function is switched on."}, new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("IsTimeTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of TimeTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("NominalCurrentAdjusted", "IfcBoolean") { Definition = "An indication if the tripping currents of the short time protection is related to the nominal current multiplied with the actual setting of the current adjustment, if any, of the long time protection part of the protective device, or not."}, new SingleValuePropertyType("ReleaseCurrent", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In] for the initial tripping of the S-function."}, new SingleValuePropertyType("ReleaseCurrentI2tEnd", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In]."}, new SingleValuePropertyType("ReleaseCurrentI2tStart", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In]."}, new SingleValuePropertyType("ReleaseTime", "IfcTimeMeasure") { Definition = "The release time in [s] for the initial tripping of the relevant part. This time indicates that for current lower than the indicated release current, the tripping time will be longer than the indicated release time. The value is given as a mean value."}, new SingleValuePropertyType("ReleaseTimeI2tEnd", "IfcTimeMeasure") { Definition = "The release time in [s]."}, new SingleValuePropertyType("ReleaseTimeI2tStart", "IfcTimeMeasure") { Definition = "The release time in [s]."}, new SingleValuePropertyType("TimeTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of time/current-curve in [%]."}, new SingleValuePropertyType("TimeTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of the time/current-curve in [%] valid for currents above TimeToleranceLimit1."}, new SingleValuePropertyType("TimeToleranceLimit1", "IfcElectricCurrentMeasure") { Definition = "The current limit in [x In] limiting the application of TimeTolerance1, if any. If the value is set to 0, the value of the TimeTolerance1 is valid for the whole time/current-curve."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingFunctionSCurve", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurrentTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%]."}, new SingleValuePropertyType("CurrentTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the current of time/current-curve in [%] valid for times above CurrentTolereanceLimit1."}, new SingleValuePropertyType("CurrentToleranceLimit1", "IfcTimeMeasure") { Definition = "The time limit in [s] limiting the application of CurrentTolerance1, if any. If the value is set to 0, the value of the CurrentTolerance1 is valid for the whole time/current-curve."}, new SingleValuePropertyType("IsCurrentTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of CurrentTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("IsOffWhenLfunctionOn", "IfcBoolean") { Definition = "Indication whether the S-function is automatically switched off when the I-function is switched on."}, new SingleValuePropertyType("IsSelectable", "IfcBoolean") { Definition = "Indication whether something can be switched off or not."}, new SingleValuePropertyType("IsTimeTolerancePositiveOnly", "IfcBoolean") { Definition = "Indication whether the value of TimeTolerance1 is provided as a positive tolereance only or not. If not, the value is proved as a pluss/minus tolerance."}, new SingleValuePropertyType("NominalCurrentAdjusted", "IfcBoolean") { Definition = "An indication if the tripping currents of the short time protection is related to the nominal current multiplied with the actual setting of the current adjustment, if any, of the long time protection part of the protective device, or not."}, new SingleValuePropertyType("ReleaseCurrent", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In] for the initial tripping of the S-function."}, new SingleValuePropertyType("ReleaseCurrentI2tEnd", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In].\n\nFor the end point of the I2t tripping curve of the S-function, if any. The value of ReleaseCurrentI2tEnd shall be larger than ReleaseCurrentI2tStart."}, new SingleValuePropertyType("ReleaseCurrentI2tStart", "IfcElectricCurrentMeasure") { Definition = "The release current in [x In].\n\nFor the start point of the I2t tripping curve of the S-function, if any."}, new SingleValuePropertyType("ReleaseTime", "IfcTimeMeasure") { Definition = "The release time in [s] for the initial tripping of the relevant part. This time indicates that for current lower than the indicated release current, the tripping time will be longer than the indicated release time. The value is given as a mean value."}, new SingleValuePropertyType("ReleaseTimeI2tEnd", "IfcTimeMeasure") { Definition = "The release time in [s].\n\nFor the end point of the I2 tripping curve of the S-function, if any. The value of ReleaseTimeI2tEnd shall be lower than ReleaseTimeI2tStart."}, new SingleValuePropertyType("ReleaseTimeI2tStart", "IfcTimeMeasure") { Definition = "The release time in [s].\n\nFor the start point of the I2t tripping curve of the S-function, if any"}, new SingleValuePropertyType("TimeTolerance1", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of time/current-curve in [%]."}, new SingleValuePropertyType("TimeTolerance2", "IfcPositiveRatioMeasure") { Definition = "The tolerance for the time of the time/current-curve in [%] valid for currents above TimeToleranceLimit1."}, new SingleValuePropertyType("TimeToleranceLimit1", "IfcElectricCurrentMeasure") { Definition = "The current limit in [x In] limiting the application of TimeTolerance1, if any. If the value is set to 0, the value of the TimeTolerance1 is valid for the whole time/current-curve."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitCurrentAdjustment", new IPropertyTypeInfo[] { new SingleValuePropertyType("AdjustmentDesignation", "IfcLabel") { Definition = "The desgnation on the device for the adjustment."}, new EnumerationPropertyType("AdjustmentValueType", new [] { "LIST", "RANGE" } ) { Definition = "The type of adjustment value that is applied through the property set. This determines the properties that should be asserted (see below)."}, new SingleValuePropertyType("CurrentAdjustmentRange", "IfcElectricCurrentMeasure") { Definition = "Upper and lower current adjustment limits for an AdjustmentValueType = RANGE. Note that this property should not have a value for an AdjustmentValueType = LIST."}, new SingleValuePropertyType("CurrentAdjustmentRangeStepValue", "IfcElectricCurrentMeasure") { Definition = "Step value of current adjustment for an AdjustmentValueType = RANGE. Note that this property should not have a value for an AdjustmentValueType = LIST."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTimeAdjustment", new IPropertyTypeInfo[] { new SingleValuePropertyType("AdjustmentDesignation", "IfcLabel") { Definition = "The desgnation on the device for the adjustment."}, new EnumerationPropertyType("AdjustmentValueType", new [] { "LIST", "RANGE" } ) { Definition = "The type of adjustment value that is applied through the property set. This determines the properties that should be asserted (see below)."}, new SingleValuePropertyType("CurrentForTimeDelay", "IfcTimeMeasure") { Definition = "The tripping current in [x In] at which the time delay is specified. A value for this property should only be asserted for time delay of L-function, and for I2t of the S and G function."}, new EnumerationPropertyType("I2TApplicability", new [] { "LIST", "RANGE" } ) { Definition = "The applicability of the time adjustment related to the tripping function."}, new SingleValuePropertyType("TimeAdjustmentRange", "IfcTimeMeasure") { Definition = "Upper and lower time adjustment limits for an AdjustmentValueType = RANGE. Note that this property should not have a value for an AdjustmentValueType = LIST."}, new SingleValuePropertyType("TimeAdjustmentRangeStepValue", "IfcTimeMeasure") { Definition = "Step value of time adjustment for an AdjustmentValueType = RANGE. Note that this property should not have a value for an AdjustmentValueType = LIST."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AtexVerified", "IfcBoolean") { Definition = "An indication whether the tripping_unit is verified to be applied in EX-environment or not."}, new SingleValuePropertyType("LimitingTerminalSize", "IfcAreaMeasure") { Definition = "The maximum terminal size capacity of the device."}, new SingleValuePropertyType("OldDevice", "IfcBoolean") { Definition = "Indication whether the protection_ unit is out-dated or not. If not out-dated, the device is still for sale."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("UseInDiscrimination", "IfcBoolean") { Definition = "An indication whether the time/current tripping information can be applied in a discrimination\nanalysis or not."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AtexVerified", "IfcBoolean") { Definition = "An indication whether the tripping_unit is verified to be applied in EX-environment or not."}, new SingleValuePropertyType("LimitingTerminalSize", "IfcAreaMeasure") { Definition = "The maximum terminal size capacity of the device."}, new SingleValuePropertyType("OldDevice", "IfcBoolean") { Definition = "Indication whether the protection_ unit is out-dated or not. If not out-dated, the device is still for sale."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Standard", "IfcLabel") { Definition = "The designation of the standard applicable for the definition of the object used.\n\nThe designation of the standard applicable for the definition of the characteristics of the\ntripping_unit."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("UseInDiscrimination", "IfcBoolean") { Definition = "An indication whether the time/current tripping information can be applied in a discrimination\nanalysis or not."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeElectroMagnetic", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurveDesignation", "IfcLabel") { Definition = "The designation of the trippingcurve given by the manufacturer. For a MCB the designation should be in accordance with the designations given in IEC 60898."}, new SingleValuePropertyType("DefinedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The ambient temperature at which the thermal current/time-curve associated with this protection device is defined."}, new EnumerationPropertyType("ElectroMagneticTrippingUnitType", new [] { "OL", "TMP_BM", "TMP_MP", "TMP_SC", "TMP_STD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of electric magnetic tripping unit from which that required may be selected. These cover overload, none special, short circuit, motor protection and bi-metal tripping."}, new SingleValuePropertyType("I1", "IfcReal") { Definition = "The (thermal) lower testing current limit in [x In], indicating that for currents lower than I1, the tripping time shall be longer than the associated tripping time, T2."}, new SingleValuePropertyType("I2", "IfcReal") { Definition = "The (thermal) upper testing current limit in [x In], indicating that for currents larger than I2, the tripping time shall be shorter than the associated tripping time, T2."}, new SingleValuePropertyType("I4", "IfcReal") { Definition = "The lower electromagnetic testing current limit in [x In], indicating that for currents lower than I4, the tripping time shall be longer than the associated tripping time, T5, i.e. the device shall not trip instantaneous."}, new SingleValuePropertyType("I5", "IfcReal") { Definition = "The upper electromagnetic testing current limit in [x In], indicating that for currents larger than I5, the tripping time shall be shorter than or equal to the associated tripping time, T5, i.e. the device shall trip instantaneous."}, new SingleValuePropertyType("T2", "IfcTimeMeasure") { Definition = "The (thermal) testing time in [s] associated with the testing currents I1 and I2."}, new SingleValuePropertyType("T5", "IfcTimeMeasure") { Definition = "The electromagnetic testing time in [s] associated with the testing currents I4 and I5, i.e. electromagnetic tripping time"}, new SingleValuePropertyType("TemperatureFactor", "IfcRatioMeasure") { Definition = "The correction factor (typically measured as %/deg K) for adjusting the thermal current/time to an ambient temperature different from the value given by the defined temperature."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeElectronic", new IPropertyTypeInfo[] { new EnumerationPropertyType("ElectronicTrippingUnitType", new [] { "EP_BM", "EP_MP", "EP_SC", "EP_STD", "EP_TIMEDELAYED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of electronic tripping unit from which that required may be selected."}, new SingleValuePropertyType("N_Protection", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit is tripping if the current in the N conductor is more than 50% of that of the phase conductors. The property is only asserted if the property N_Protection is asserted."}, new SingleValuePropertyType("N_Protection_100", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit is tripping if the current in the N conductor is more than 100% of that of the phase conductors. The property is only asserted if the property N_Protection is asserted."}, new SingleValuePropertyType("N_Protection_50", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit is tripping if the current in the N conductor is more than 50% of that of the phase conductors. The property is only asserted if the property N_Protection is asserted."}, new SingleValuePropertyType("N_Protection_Select", "IfcBoolean") { Definition = "An indication whether the use of the N_Protection can be selected by the user or not. If both the properties N_Protection_50 and N_Protection_100 are asserted, the value of N_Protection_Select property is set to TRUE. The property is only asserted if the property N_Protection is asserted."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeElectronic", new IPropertyTypeInfo[] { new EnumerationPropertyType("ElectronicTrippingUnitType", new [] { "EP_BM", "EP_MP", "EP_SC", "EP_STD", "EP_TIMEDELAYED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of electronic tripping unit from which that required may be selected."}, new SingleValuePropertyType("N_Protection", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit has separate protection for the N conductor, or not."}, new SingleValuePropertyType("N_Protection_100", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit is tripping if the current in the N conductor is more than 100% of that of the phase conductors. The property is only asserted if the property N_Protection is asserted."}, new SingleValuePropertyType("N_Protection_50", "IfcBoolean") { Definition = "An indication whether the electronic tripping unit is tripping if the current in the N conductor is more than 50% of that of the phase conductors. The property is only asserted if the property N_Protection is asserted."}, new SingleValuePropertyType("N_Protection_Select", "IfcBoolean") { Definition = "An indication whether the use of the N_Protection can be selected by the user or not. If both the properties N_Protection_50 and N_Protection_100 are asserted, the value of N_Protection_Select property is set to TRUE. The property is only asserted if the property N_Protection is asserted."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeResidualCurrent", new IPropertyTypeInfo[] { new EnumerationPropertyType("TrippingUnitReleaseCurrent", new [] { "10", "100", "1000", "30", "300", "500", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The value of tripping or residual current for which the device has the possibility to be equipped. The values are given in mA."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTrippingUnitTypeThermal", new IPropertyTypeInfo[] { new SingleValuePropertyType("CurveDesignation", "IfcLabel") { Definition = "The designation of the trippingcurve given by the manufacturer. For a MCB the designation should be in accordance with the designations given in IEC 60898."}, new SingleValuePropertyType("DefinedTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The ambient temperature at which the thermal current/time-curve associated with this protection device is defined."}, new SingleValuePropertyType("I1", "IfcReal") { Definition = "The (thermal) lower testing current limit in [x In], indicating that for currents lower than I1, the tripping time shall be longer than the associated tripping time, T2."}, new SingleValuePropertyType("I2", "IfcReal") { Definition = "The (thermal) upper testing current limit in [x In], indicating that for currents larger than I2, the tripping time shall be shorter than the associated tripping time, T2."}, new SingleValuePropertyType("T2", "IfcTimeMeasure") { Definition = "The (thermal) testing time in [s] associated with the testing currents I1 and I2."}, new SingleValuePropertyType("TemperatureFactor", "IfcRatioMeasure") { Definition = "The correction factor (typically measured as %/deg K) for adjusting the thermal current/time to an ambient temperature different from the value given by the defined temperature."}, new EnumerationPropertyType("ThermalTrippingUnitType", new [] { "DIAZED", "MINIZED", "NEOZED", "NH_FUSE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of thermal tripping unit from which that required may be selected."} }, new [] { "IfcProtectiveDeviceTrippingUnit", "IfcProtectiveDeviceTrippingUnitType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeAntiArcingDevice", new IPropertyTypeInfo[] { new SingleValuePropertyType("GroundingType", "IfcLabel") { Definition = "The type of grounding connection."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeCircuitBreaker", new IPropertyTypeInfo[] { new SingleValuePropertyType("ICM60947", "IfcElectricCurrentMeasure") { Definition = "The making capacity in [A] for a circuit breaker or motor protection device tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICS60947", "IfcElectricCurrentMeasure") { Definition = "The service breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICU60947", "IfcElectricCurrentMeasure") { Definition = "The ultimate breaking capacity in [A] for an object tested in accordance with the IEC 60947 series."}, new SingleValuePropertyType("ICW60947", "IfcElectricCurrentMeasure") { Definition = "The thermal withstand current in [A] for a circuit breaker or motor protection device tested in accordance with the IEC 60947 series. The value shall be related to 1 s."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeEarthLeakageCircuitBreaker", new IPropertyTypeInfo[] { new EnumerationPropertyType("EarthFailureDeviceType", new [] { "STANDARD", "TIMEDELAYED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of circuit breaker from which that required may be selected where:Standard: Device that operates without a time delay.\nTimeDelayed: Device that operates after a time delay."}, new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeFuseDisconnector", new IPropertyTypeInfo[] { new SingleValuePropertyType("ArcExtinctionType", "IfcLabel") { Definition = "Type of arc extinction used."}, new SingleValuePropertyType("BreakingCapacity", "IfcElectricCurrentMeasure") { Definition = "The current that a fuse, circuit breaker, or other electrical apparatus is able to interrupt without being destroyed or causing an electric arc with unacceptable duration."}, new EnumerationPropertyType("FuseDisconnectorType", new [] { "ENGINEPROTECTIONDEVICE", "FUSEDSWITCH", "HRC", "OVERLOADPROTECTIONDEVICE", "SWITCHDISCONNECTORFUSE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of fuse disconnector from which that required may be selected where:EngineProtectionDevice: A fuse whose characteristic is specifically designed for the protection of a motor or generator.\nFuseSwitchDisconnector: A switch disconnector in which a fuse link or a fuse carrier with fuse link forms the moving contact,\nHRC: A standard fuse (High Rupturing Capacity)\nOverloadProtectionDevice: A device that disconnects the supply when the operating conditions in an electrically undamaged circuit causes an overcurrent,\nSemiconductorFuse: A fuse whose characteristic is specifically designed for the protection of sem-conductor devices.\nSwitchDisconnectorFuse: A switch disconnector in which one or more poles have a fuse in series in a composite unit."}, new SingleValuePropertyType("IC60269", "IfcElectricCurrentMeasure") { Definition = "The breaking capacity in [A] for fuses in accordance with the IEC 60269 series."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NominalFrequency", "IfcFrequencyMeasure") { Definition = "The nominal frequency of the supply."}, new SingleValuePropertyType("NumberOfPhases", "IfcCountMeasure") { Definition = "Number of phases that the equipment operates on."}, new SingleValuePropertyType("NumberOfPoles", "IfcCountMeasure") { Definition = "Number of poles that the object would affect."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W]."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."}, new SingleValuePropertyType("TransformationRatio", "IfcRatioMeasure") { Definition = "The ratio of the actual primary current or voltage to the actual secondary current or voltage."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeResidualCurrentCircuitBreaker", new IPropertyTypeInfo[] { new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeResidualCurrentSwitch", new IPropertyTypeInfo[] { new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeEarthLeakageCircuitBreaker", new IPropertyTypeInfo[] { new EnumerationPropertyType("EarthFailureDeviceType", new [] { "STANDARD", "TIMEDELAYED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of circuit breaker from which that required may be selected where:Standard: Device that operates without a time delay.\nTimeDelayed: Device that operates after a time delay."}, new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity.\n\nThe rated rms value of the vector sum of the instantaneous currents flowing in the main circuits of the device which causes the device to operate under specified conditions. (IEC 61008-1)."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeFuseDisconnector", new IPropertyTypeInfo[] { new SingleValuePropertyType("ArcExtinctionType", "IfcLabel") { Definition = "Type of arc extinction used."}, new SingleValuePropertyType("BreakingCapacity", "IfcElectricCurrentMeasure") { Definition = "The current that a fuse, circuit breaker, or other electrical apparatus is able to interrupt without being destroyed or causing an electric arc with unacceptable duration."}, new EnumerationPropertyType("FuseDisconnectorType", new [] { "ENGINEPROTECTIONDEVICE", "FUSEDSWITCH", "HRC", "OVERLOADPROTECTIONDEVICE", "SWITCHDISCONNECTORFUSE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of fuse disconnector from which that required may be selected where:EngineProtectionDevice: A fuse whose characteristic is specifically designed for the protection of a motor or generator.\nFuseSwitchDisconnector: A switch disconnector in which a fuse link or a fuse carrier with fuse link forms the moving contact,\nHRC: A standard fuse (High Rupturing Capacity)\nOverloadProtectionDevice: A device that disconnects the supply when the operating conditions in an electrically undamaged circuit causes an overcurrent,\nSemiconductorFuse: A fuse whose characteristic is specifically designed for the protection of sem-conductor devices.\nSwitchDisconnectorFuse: A switch disconnector in which one or more poles have a fuse in series in a composite unit."}, new SingleValuePropertyType("IC60269", "IfcElectricCurrentMeasure") { Definition = "The breaking capacity in [A] for fuses in accordance with the IEC 60269 series."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NominalFrequency", "IfcFrequencyMeasure") { Definition = "The nominal frequency of the supply."}, new SingleValuePropertyType("NumberOfPhases", "IfcCountMeasure") { Definition = "Number of phases that the equipment operates on."}, new SingleValuePropertyType("NumberOfPoles", "IfcCountMeasure") { Definition = "Number of poles that the object would affect.\n\nNumber of poles that the equipment would affect."}, new SingleValuePropertyType("PowerLoss", "IfcPowerMeasure") { Definition = "The power loss in [W].\n\nThe power loss in [W] of the fuse when the nominal current is flowing through the fuse."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."}, new SingleValuePropertyType("TransformationRatio", "IfcRatioMeasure") { Definition = "The ratio of the actual primary current or voltage to the actual secondary current or voltage."}, new EnumerationPropertyType("VoltageLevel", new [] { "U1000", "U230", "U400", "U440", "U525", "U690", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The voltage levels for which the data of the instance is valid. More than one value may be selected in the enumeration."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeResidualCurrentCircuitBreaker", new IPropertyTypeInfo[] { new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity.\n\nCurrent leakage to an unwanted leading path during normal operation (IEC 151-14-49)."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); + yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeResidualCurrentSwitch", new IPropertyTypeInfo[] { new SingleValuePropertyType("Sensitivity", "IfcElectricCurrentMeasure") { Definition = "Sensitivity.\n\nCurrent leakage to an unwanted leading path during normal operation (IEC 151-14-49)."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeSparkGap", new IPropertyTypeInfo[] { new SingleValuePropertyType("BreakdownVoltageTolerance", "IfcElectricVoltageMeasure") { Definition = "Nominal value of the spark gap breakdown voltage tolerance."}, new SingleValuePropertyType("Capacitance", "IfcElectricCapacitanceMeasure") { Definition = "Maximum value of the capacitance between the electrodes at specified frequency and temperature."}, new SingleValuePropertyType("CurrentRMS", "IfcElectricCurrentMeasure") { Definition = "Maximum rms (root mean square) current of an electric-electronic or electromechanical component at specified ambient temperature."}, new SingleValuePropertyType("PowerDissipation", "IfcPowerMeasure") { Definition = "Permissible power which may be dissipated continuously, at specified conditions."}, new SingleValuePropertyType("Resistivity", "IfcElectricResistanceMeasure") { Definition = "Electrical resistivity of a rock or soil (Ohm-m)."}, new EnumerationPropertyType("SparkGapType", new [] { "AIRSPARKGAP", "GASFILLEDSPARKGAP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of Spark gap."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDevice", "IfcProtectiveDeviceType", "IfcProtectiveDeviceType" }); yield return new PropertySetInfo("Pset_ProtectiveDeviceTypeVaristor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CharacteristicFunction", "IfcText") { Definition = "The characteristic function to show the relationship between varistor current and voltage."}, new EnumerationPropertyType("VaristorType", new [] { "METALOXIDE", "ZINCOXIDE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of varistor from which that required may be selected."} }, new [] { "IfcProtectiveDevice", "IfcProtectiveDeviceType" }); - yield return new PropertySetInfo("Pset_ProvisionForVoid", new IPropertyTypeInfo[] { new SingleValuePropertyType("Depth", "IfcPositiveLengthMeasure") { Definition = "The depth of the object."}, new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height."}, new SingleValuePropertyType("System", "IfcLabel") { Definition = "he building service system that requires the provision for voids, e.g. 'Air Conditioning', 'Plumbing', 'Electro', etc."}, new SingleValuePropertyType("VoidShape", "IfcLabel") { Definition = "Shape of the void."}, new SingleValuePropertyType("Width", "IfcPositiveLengthMeasure") { Definition = "The width of the object. Only given, if the object has constant thickness (prismatic)."} }, new [] { "IfcVirtualElement" }); + yield return new PropertySetInfo("Pset_ProvisionForVoid", new IPropertyTypeInfo[] { new SingleValuePropertyType("Depth", "IfcPositiveLengthMeasure") { Definition = "The depth of the object."}, new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height\n\nVertical extension in elevation. Only provided if the Shape property is set to \"rectangle\"."}, new SingleValuePropertyType("System", "IfcLabel") { Definition = "The building service system that requires the provision for voids, e.g. 'Air Conditioning', 'Plumbing', 'Electro', etc.\n\nReference to the building service is done using the Name attribute."}, new SingleValuePropertyType("VoidShape", "IfcLabel") { Definition = "The shape form of the provision for void, the minimum set of agreed values includes 'Rectangle', 'Round', and 'Undefined'."}, new SingleValuePropertyType("Width", "IfcPositiveLengthMeasure") { Definition = "The width of the object. Only given, if the object has constant thickness (prismatic)."} }, new [] { "IfcBuildingElementProxy", "IfcVirtualElement" }); yield return new PropertySetInfo("Pset_PumpOccurrence", new IPropertyTypeInfo[] { new EnumerationPropertyType("BaseType", new [] { "BASE", "FRAME", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines general types of pump bases.FRAME: Frame.\nBASE: Base.\nNONE: There is no pump base, such as an inline pump.\nOTHER: Other type of pump base."}, new EnumerationPropertyType("DriveConnectionType", new [] { "BELTDRIVE", "COUPLING", "DIRECTDRIVE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The way the pump drive mechanism is connected to the pump.DIRECTDRIVE: Direct drive.\nBELTDRIVE: Belt drive.\nCOUPLING: Coupling.\nOTHER: Other type of drive connection."}, new SingleValuePropertyType("ImpellerDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of object - used to scale performance of geometrically similar objects."} }, new [] { "IfcPump" }); yield return new PropertySetInfo("Pset_PumpPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcPump" }); - yield return new PropertySetInfo("Pset_PumpTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object."}, new SingleValuePropertyType("FlowRateRange", "IfcMassFlowRateMeasure") { Definition = "Allowable range of volume of fluid being pumped against the resistance specified."}, new SingleValuePropertyType("FlowResistanceRange", "IfcPressureMeasure") { Definition = "Allowable range of frictional resistance against which the fluid is being pumped."}, new SingleValuePropertyType("NetPositiveSuctionHead", "IfcPressureMeasure") { Definition = "Minimum liquid pressure at the pump inlet to prevent cavitation."}, new SingleValuePropertyType("NominalRotationSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Rotational speed of the object under nominal conditions."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature."} }, new [] { "IfcPump", "IfcPumpType" }); + yield return new PropertySetInfo("Pset_PumpTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ConnectionSize", "IfcPositiveLengthMeasure") { Definition = "The connection size of the object.\n\nThe connection to and from the pump."}, new SingleValuePropertyType("FlowRateRange", "IfcMassFlowRateMeasure") { Definition = "Allowable range of volume of fluid being pumped against the resistance specified."}, new SingleValuePropertyType("FlowResistanceRange", "IfcPressureMeasure") { Definition = "Allowable range of frictional resistance against which the fluid is being pumped."}, new SingleValuePropertyType("NetPositiveSuctionHead", "IfcPressureMeasure") { Definition = "Minimum liquid pressure at the pump inlet to prevent cavitation."}, new SingleValuePropertyType("NominalRotationSpeed", "IfcRotationalFrequencyMeasure") { Definition = "Rotational speed of the object under nominal conditions.\n\nPump rotational speed under nominal conditions."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "Allowable maximum and minimum temperature.\n\nAllowable operational range of the fluid temperature."} }, new [] { "IfcPump", "IfcPumpType" }); yield return new PropertySetInfo("Pset_QuayCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BentSpacing", "IfcLengthMeasure") { Definition = "Bent (upright) spacing"}, new SingleValuePropertyType("Elevation", "IfcLengthMeasure") { Definition = "Elevation of the entity"}, new EnumerationPropertyType("QuaySectionType", new [] { "CLOSED", "OPEN" } ) { Definition = "Whether the structure presents a solid/closed barrier to the passage of water or is open."}, new SingleValuePropertyType("StructuralType", "IfcLabel") { Definition = "Structural type of the object"} }, new [] { "IfcMarineFacility" }); yield return new PropertySetInfo("Pset_QuayDesignCriteria", new IPropertyTypeInfo[] { new SingleValuePropertyType("EquipmentLoading", "IfcForceMeasure") { Definition = "Loading from equipment"}, new SingleValuePropertyType("ExtremeHighWaterLevel", "IfcLengthMeasure") { Definition = "Extreme high water level"}, new SingleValuePropertyType("ExtremeLowWaterLevel", "IfcLengthMeasure") { Definition = "Extreme low water level"}, new SingleValuePropertyType("FlowLoading", "IfcForceMeasure") { Definition = "Flow loading force"}, new SingleValuePropertyType("HighWaterLevel", "IfcLengthMeasure") { Definition = "High water level"}, new SingleValuePropertyType("LowWaterLevel", "IfcLengthMeasure") { Definition = "Low water level"}, new SingleValuePropertyType("ShipLoading", "IfcForceMeasure") { Definition = "Ship loading force"}, new SingleValuePropertyType("UniformlyDistributedLoad", "IfcForceMeasure") { Definition = "Uniformly Distributed Load"}, new SingleValuePropertyType("WaveLoading", "IfcForceMeasure") { Definition = "Wave loading force"} }, new [] { "IfcMarineFacility" }); yield return new PropertySetInfo("Pset_RadiiKerbStone", new IPropertyTypeInfo[] { new EnumerationPropertyType("CurveShape", new [] { "EXTERNAL", "INTERNAL" } ) { Definition = "Shape according to CurveShapeEnum"}, new SingleValuePropertyType("Radius", "IfcPositiveLengthMeasure") { Definition = "The radius of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcKerb", "IfcKerbType" }); - yield return new PropertySetInfo("Pset_RailingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcRailing", "IfcRailingType" }); + yield return new PropertySetInfo("Pset_RailingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object.\n\nSpecifically handrail of the railing."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height\n\nIt is the upper height of the railing above the floor or stair.\nThe size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcRailing", "IfcRailingType" }); yield return new PropertySetInfo("Pset_RailTypeBlade", new IPropertyTypeInfo[] { new SingleValuePropertyType("BladeRadius", "IfcPositiveLengthMeasure") { Definition = "The radius of the blade bend defined as design parameter."}, new SingleValuePropertyType("IsArticulatedBlade", "IfcBoolean") { Definition = "Indicates whether the blade is articulated or not."}, new SingleValuePropertyType("IsFallbackBlade", "IfcBoolean") { Definition = "Indicates whether the blade always returns to the same position as a trailable turnout or not."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcRail", "IfcRailType" }); yield return new PropertySetInfo("Pset_RailTypeCheckRail", new IPropertyTypeInfo[] { new EnumerationPropertyType("CheckRailType", new [] { "TYPE_33C1", "TYPE_40C1", "TYPE_47C1", "TYPE_CR3_60U", "TYPE_R260", "TYPE_R320CR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the check rail. Check rail types enumerated in this property are defined based on EN 13674."} }, new [] { "IfcRail", "IfcRailType" }); yield return new PropertySetInfo("Pset_RailTypeGuardRail", new IPropertyTypeInfo[] { new EnumerationPropertyType("GuardRailConnection", new [] { "FISHPLATE", "NONE", "WELD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates how the guard rail is connected along its length, when the fasteners are not explicitly modelled."}, new EnumerationPropertyType("GuardRailType", new [] { "GUARDRAILANDSPOTSLEEPERS", "GUARDRAILSONLY", "SPOTSLEEPERSONLY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the guard rail."}, new EnumerationPropertyType("PositionInTrack", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the relative position of the element in track, which lies to the left or right as facing in the direction of increasing stationing values."} }, new [] { "IfcRail", "IfcRailType" }); yield return new PropertySetInfo("Pset_RailTypeRail", new IPropertyTypeInfo[] { new EnumerationPropertyType("DrillOnRail", new [] { "BOTHENDS", "NONE", "ONEEND", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates if the manufactured rail is drilled at its extremities or not. It can have holes on one, both or none of its extremities."}, new SingleValuePropertyType("IsStainless", "IfcBoolean") { Definition = "Indicates whether the rail is stainless or not."}, new SingleValuePropertyType("MinimumTensileStrength", "IfcForceMeasure") { Definition = "Indicates the minimum tensile strength."}, new EnumerationPropertyType("PositionInTrack", new [] { "LEFT", "MIDDLE", "RIGHT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the relative position of the element in track, which lies to the left or right as facing in the direction of increasing stationing values."}, new EnumerationPropertyType("RailCondition", new [] { "NEWRAIL", "REGENERATEDRAIL", "REUSEDRAIL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Assessment of the condition of the rail at point of installation."}, new EnumerationPropertyType("RailDeliveryState", new [] { "HEATTREATMENT", "HOTROLLING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The delivery state of rail, which indicates the final treatment at the end in manufacturing."}, new EnumerationPropertyType("RailElementaryLength", new [] { "100M", "108M", "120M", "12M", "144M", "18M", "24M", "25M", "27M", "30M", "36M", "400M", "48M", "54M", "60M", "6M", "72M", "75M", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The standardised length of rail supplied from the manufacturer."} }, new [] { "IfcRail", "IfcRailType" }); yield return new PropertySetInfo("Pset_RailTypeStockRail", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("StockRailRadius", "IfcPositiveLengthMeasure") { Definition = "The radius of the stock rail bend defined as design parameter."} }, new [] { "IfcRail", "IfcRailType" }); - yield return new PropertySetInfo("Pset_RailwayBalise", new IPropertyTypeInfo[] { new SingleValuePropertyType("DetectionRange", "IfcPositiveLengthMeasure") { Definition = "The detection range of the equipment."}, new SingleValuePropertyType("FailureInformation", "IfcText") { Definition = "The information for failure description."}, new SingleValuePropertyType("InformationLength", "IfcInteger") { Definition = "Indicates supported bytes of the data Information, e.g.127 bytes."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWeight", "IfcMassMeasure") { Definition = "Nominal weight of the object."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally."}, new EnumerationPropertyType("RailwayBaliseType", new [] { "ACTIVEBALISE", "PASSIVEBALISE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the railway balise."}, new SingleValuePropertyType("TransmissionRate", "IfcIntegerCountRateMeasure") { Definition = "Data transmission rate between the device and the receiving module in bits per second."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); + yield return new PropertySetInfo("Pset_RailwayBalise", new IPropertyTypeInfo[] { new SingleValuePropertyType("DetectionRange", "IfcPositiveLengthMeasure") { Definition = "The detection range of the equipment."}, new SingleValuePropertyType("FailureInformation", "IfcText") { Definition = "The information for failure description."}, new SingleValuePropertyType("InformationLength", "IfcInteger") { Definition = "Indicates supported bytes of the data Information, e.g.127 bytes."}, new SingleValuePropertyType("IP_Code", "IfcLabel") { Definition = "IP Code, the International Protection Marking, IEC 60529), classifies and rates the degree of protection provided against intrusion."}, new SingleValuePropertyType("NominalHeight", "IfcNonNegativeLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWeight", "IfcMassMeasure") { Definition = "Nominal weight of the object."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("OperationalTemperatureRange", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature range in which the device operates normally.\n\nAllowable operation ambient air temperature range."}, new EnumerationPropertyType("RailwayBaliseType", new [] { "ACTIVEBALISE", "PASSIVEBALISE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the railway balise."}, new SingleValuePropertyType("TransmissionRate", "IfcIntegerCountRateMeasure") { Definition = "Data transmission rate between the device and the receiving module in bits per second."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); yield return new PropertySetInfo("Pset_RailwayCableCarrier", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfCrossedTracks", "IfcCountMeasure") { Definition = "Number of tracks crossed in cable route."} }, new [] { "IfcCableCarrierSegment" }); yield return new PropertySetInfo("Pset_RailwayLevelCrossing", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasRailDrainage", "IfcBoolean") { Definition = "Indicates whether there is rail drainage or not."}, new SingleValuePropertyType("IsAccessibleByVehicle", "IfcBoolean") { Definition = "Indicates whether the element is accessible by a vehicle or not."}, new SingleValuePropertyType("IsExceptionalTransportRoute", "IfcBoolean") { Definition = "Indicates whether the route is suitable for exceptional transport (load, structure gauge, road),"}, new SingleValuePropertyType("IsPrivateOwner", "IfcBoolean") { Definition = "Indicates if the owner of the crossed road is private or not."}, new SingleValuePropertyType("IsSecuredBySignalingSystem", "IfcBoolean") { Definition = "Indicates whether the level crossing is secured by a signalling system or not."}, new SingleValuePropertyType("PermissiblePavementLoad", "IfcMassMeasure") { Definition = "Permissible traffic load on the pavement."} }, new [] { "IfcFacilityPartCommon" }); yield return new PropertySetInfo("Pset_RailwaySignalAspect", new IPropertyTypeInfo[] { new EnumerationPropertyType("AppliesToTrainCategory", new [] { "FREIGHT", "PASSENGER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Sign information relative to train category, e.g. freight, passenger."}, new SingleValuePropertyType("SignalAspectType", "IfcLabel") { Definition = "The type of aspect, e.g. 2-display aspect for distant signal, 3-display aspect for block signal."}, new SingleValuePropertyType("SignLegend", "IfcText") { Definition = "Text information written on the signal or sign."} }, new [] { "IfcSignal", "IfcSign", "IfcSignalType", "IfcSignType" }); yield return new PropertySetInfo("Pset_RailwaySignalOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApproachSpeed", "IfcLinearVelocityMeasure") { Definition = "The design speed of trains approaching the signal if different from the line speed."}, new SingleValuePropertyType("DistanceToStopMark", "IfcPositiveLengthMeasure") { Definition = "Distance from the signal to the nearest stop mark at a platform."}, new SingleValuePropertyType("HandSignallingProhibited", "IfcBoolean") { Definition = "Indicates if hand signalling is prohibited in case of any failure."}, new SingleValuePropertyType("HinderingObstaclesDescription", "IfcText") { Definition = "Description of obstacles that hinder the visibility for the staff in the station."}, new SingleValuePropertyType("LimitedClearances", "IfcText") { Definition = "Special conditions for placing the signal post telephone: tunnels, bridges, viaducts."}, new SingleValuePropertyType("NumberOfLampsNotUsed", "IfcCountMeasure") { Definition = "Number of lamps which are not needed and blanked out (sealed)."}, new SingleValuePropertyType("RequiresBannerSignal", "IfcBoolean") { Definition = "Indicates whether a banner repeater signal is required."}, new SingleValuePropertyType("RequiresOLEMesh", "IfcBoolean") { Definition = "Indicates whether an OLE mesh is required to protect the signal or maintainer."}, new SingleValuePropertyType("RequiresSafetyHandrail", "IfcBoolean") { Definition = "Indicates whether a safety handrail is required."}, new SingleValuePropertyType("SignalPostTelephoneID", "IfcIdentifier") { Definition = "The identifier of the signal post telephone attached to the signal."}, new SingleValuePropertyType("SignalPostTelephoneType", "IfcLabel") { Definition = "Indicates the type of the signal post telephone, e.g. locked, direct line, dial phone."}, new SingleValuePropertyType("SignalWalkwayLength", "IfcPositiveLengthMeasure") { Definition = "Indicates the length of the walkway from signal to signal post telephone."}, new SingleValuePropertyType("SpecialPositionArrangement", "IfcLabel") { Definition = "Type of special position at which the signal is placed."} }, new [] { "IfcSignal" }); yield return new PropertySetInfo("Pset_RailwaySignalSighting", new IPropertyTypeInfo[] { new SingleValuePropertyType("SignalSightingAchievableDistance", "IfcPositiveLengthMeasure") { Definition = "Reading distance of the signal, which is achievable with the help of mitigation works."}, new SingleValuePropertyType("SignalSightingAvailableDistance", "IfcPositiveLengthMeasure") { Definition = "Reading distance of the signal without having any mitigation works."}, new SingleValuePropertyType("SignalSightingCombinedWithRepeater", "IfcPositiveLengthMeasure") { Definition = "Combined reading distance for the signal and any associated repeaters."}, new SingleValuePropertyType("SignalSightingMinimum", "IfcPositiveLengthMeasure") { Definition = "Minimal distance in which the signal has to be readable."}, new SingleValuePropertyType("SignalSightingPreferred", "IfcPositiveLengthMeasure") { Definition = "Preferred distance in which the signal shall be readable."}, new SingleValuePropertyType("SignalSightingRouteIndicator", "IfcPositiveLengthMeasure") { Definition = "Required reading distance for the route indicator."}, new SingleValuePropertyType("SignalViewingMinimumInFront", "IfcPositiveLengthMeasure") { Definition = "Smallest distance where the signal has to be readable (for train very close to the signal)."} }, new [] { "IfcSignal", "IfcSign" }); yield return new PropertySetInfo("Pset_RailwaySignalType", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasConductorRailGuardBoard", "IfcBoolean") { Definition = "Indicates if a guard board is provided."}, new SingleValuePropertyType("HotStripOrientation", "IfcLabel") { Definition = "Position of the hot strip, which indicates the direction of the focus of the light beam and is given in terms like \"left upper quadrant (LUQ)\" or \"5 o'clock\"."}, new SingleValuePropertyType("IsHighType", "IfcBoolean") { Definition = "Indicates if the signal is high (TRUE) or dwarf (ground mounted) (FALSE)."}, new SingleValuePropertyType("LensDiffuserOrientation", "IfcLabel") { Definition = "Orientation the lens diffuser has to have, which indicates the direction of the lens diffuser and is given in terms like \"left upper quadrant (LUQ)\" or \"5 o'clock\"."}, new SingleValuePropertyType("LensDiffuserType", "IfcLabel") { Definition = "Type of the lens diffuser the signal is equipped with."}, new SingleValuePropertyType("MaximumDisplayDistance", "IfcPositiveLengthMeasure") { Definition = "The maximum distance that can be displayed. The value relates only to the signal type, not to the circumstances at a special position."}, new SingleValuePropertyType("NumberOfLamps", "IfcCountMeasure") { Definition = "Number of lamps the signal is composed of."}, new EnumerationPropertyType("RailwaySignalType", new [] { "APPROACHSIGNAL", "BLOCKSIGNAL", "DISTANTSIGNAL", "HOMESIGNAL", "HUMPAUXILIARYSIGANL", "HUMPSIGNAL", "LEVELCROSSINGSIGNAL", "OBSTRUCTIONSIGNAL", "REPEATINGSIGNAL", "SHUNTINGSIGNAL", "STARTINGSIGNAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The type of railway signal, e.g. home signal, starting signal, shunting signal, level crossing signal."}, new SingleValuePropertyType("RequiredDisplayDistance", "IfcPositiveLengthMeasure") { Definition = "The required distance that has to be displayed. The value relates only to the signal type, not to the circumstances at a special position."}, new SingleValuePropertyType("SignalHoodLength", "IfcPositiveLengthMeasure") { Definition = "Nominal length of the signal hood, which is the signal lamp cover against glaring sun."}, new EnumerationPropertyType("SignalIndicatorType", new [] { "DEPARTUREINDICATOR", "DEPARTUREROUTEINDICATOR", "DERAILINDICATOR", "ROLLINGSTOCKSTOPINDICATOR", "ROUTEINDICATOR", "SHUNTINGINDICATOR", "SWITCHINDICATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of the indicators on a signal, e.g. route indicator, speed restriction indicator etc."}, new SingleValuePropertyType("SignalMessage", "IfcText") { Definition = "All possible message available at this signal, e.g. \"3/4- display automatic blocking\"."} }, new [] { "IfcSignal", "IfcSignalType" }); - yield return new PropertySetInfo("Pset_RailwayTrackStructurePart", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasBallastTrack", "IfcBoolean") { Definition = "Indicates whether the track has ballast or not."}, new SingleValuePropertyType("HasCWR", "IfcBoolean") { Definition = "Indicates if the track has continuous welded rails."}, new SingleValuePropertyType("IsSunExposed", "IfcBoolean") { Definition = "Indicates if the object is in exposed position to sunshine."}, new EnumerationPropertyType("TrackSupportingStructure", new [] { "BRIDGE", "CONCRETE", "ONSPECIALFOUNDATION", "PAVEMENT", "SUBGRADELAYER", "TRANSITIONSECTION", "TUNNEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the supporting structure for track part."} }, new [] { "IfcRailwayPart", "IfcRailwayPart", "IfcRailwayPart", "IfcRailwayPart" }); - yield return new PropertySetInfo("Pset_RampCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according the local building codes, otherwise (FALSE).\nIt is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasNonSkidSurface", "IfcBoolean") { Definition = "Indication whether the surface finish is designed to prevent slippery (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RequiredHeadroom", "IfcPositiveLengthMeasure") { Definition = "Required headroom clearance for the passageway according to the applicable building code or additional requirements."}, new SingleValuePropertyType("RequiredSlope", "IfcPlaneAngleMeasure") { Definition = "Required sloping angle of the object - relative to horizontal (0.0 degrees).\nRequired maximum slope for the passageway according to the applicable building code or additional requirements."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcRamp", "IfcRampType" }); - yield return new PropertySetInfo("Pset_RampFlightCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width."}, new SingleValuePropertyType("CounterSlope", "IfcPlaneAngleMeasure") { Definition = "Sloping angle of the object, measured perpendicular to the slope - relative to horizontal (0.0 degrees).\nActual maximum slope for the passageway measured perpendicular to the direction of travel according to the current design. The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence.\nNote: new property in IFC4."}, new SingleValuePropertyType("Headroom", "IfcPositiveLengthMeasure") { Definition = "Actual headroom clearance for the passageway according to the current design.\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcRampFlight", "IfcRampFlightType" }); - yield return new PropertySetInfo("Pset_ReferentCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NameFormat", "IfcLabel") { Definition = "Specifies a reference to or description of the formatting or encoding of the Name attribute of the IfcReferent occurence."} }, new [] { "IfcReferent" }); - yield return new PropertySetInfo("Pset_ReinforcementBarCountOfIndependentFooting", new IPropertyTypeInfo[] { new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("XDirectionLowerBarCount", "IfcCountMeasure") { Definition = "The number of bars with X direction lower bar."}, new SingleValuePropertyType("XDirectionUpperBarCount", "IfcCountMeasure") { Definition = "The number of bars with X direction upper bar."}, new SingleValuePropertyType("YDirectionLowerBarCount", "IfcCountMeasure") { Definition = "The number of bars with Y direction lower bar."}, new SingleValuePropertyType("YDirectionUpperBarCount", "IfcCountMeasure") { Definition = "The number of bars with Y direction upper bar."} }, new [] { "IfcFooting", "IfcFootingType" }); + yield return new PropertySetInfo("Pset_RailwayTrackStructurePart", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasBallastTrack", "IfcBoolean") { Definition = "Indicates whether the track has ballast or not."}, new SingleValuePropertyType("HasCWR", "IfcBoolean") { Definition = "Indicates if the track has continuous welded rails."}, new SingleValuePropertyType("IsSunExposed", "IfcBoolean") { Definition = "Indicates if the object is in exposed position to sunshine."}, new EnumerationPropertyType("TrackSupportingStructure", new [] { "BRIDGE", "CONCRETE", "ONSPECIALFOUNDATION", "PAVEMENT", "SUBGRADELAYER", "TRANSITIONSECTION", "TUNNEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the supporting structure for track part."} }, new [] { "IfcRailwayPart", "IfcRailwayPart", "IfcRailwayPart", "IfcRailwayPart", "IfcRailwayPart" }); + yield return new PropertySetInfo("Pset_RampCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere it defines an exit ramp in accordance to the national building code."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according to the local building codes, otherwise (FALSE). It is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasNonSkidSurface", "IfcBoolean") { Definition = "Indication whether the surface finish is designed to prevent slippery (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RequiredHeadroom", "IfcPositiveLengthMeasure") { Definition = "Required headroom clearance for the passageway according to the applicable building code or additional requirements."}, new SingleValuePropertyType("RequiredSlope", "IfcPlaneAngleMeasure") { Definition = "Required sloping angle of the object - relative to horizontal (0.0 degrees).\nRequired maximum slope for the passageway according to the applicable building code or additional requirements."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcRamp", "IfcRampType" }); + yield return new PropertySetInfo("Pset_RampFlightCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width.\n\nMeasured as the clear space for accessibility and egress; it is a measured distance between the two handrails or the wall and a handrail on a ramp."}, new SingleValuePropertyType("CounterSlope", "IfcPlaneAngleMeasure") { Definition = "Sloping angle of the object, measured perpendicular to the slope - relative to horizontal (0.0 degrees).\nActual maximum slope for the passageway measured perpendicular to the direction of travel according to the current design. The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence.\nNote: new property in IFC4."}, new SingleValuePropertyType("Headroom", "IfcPositiveLengthMeasure") { Definition = "Actual headroom clearance for the passageway according to the current design.\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Slope", "IfcPlaneAngleMeasure") { Definition = "Slope angle - relative to horizontal (0.0 degrees).The shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence. For geometry editing applications, like CAD: this value should be write-only."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcRampFlight", "IfcRampFlightType" }); + yield return new PropertySetInfo("Pset_ReferentCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NameFormat", "IfcLabel") { Definition = "Specifies a reference to or description of the formatting or encoding of the Name attribute of the IfcReferent occurrence."} }, new [] { "IfcReferent" }); + yield return new PropertySetInfo("Pset_ReinforcementBarCountOfIndependentFooting", new IPropertyTypeInfo[] { new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead.\n\nA descriptive label for the general reinforcement type."}, new SingleValuePropertyType("XDirectionLowerBarCount", "IfcCountMeasure") { Definition = "The number of bars with X direction lower bar."}, new SingleValuePropertyType("XDirectionUpperBarCount", "IfcCountMeasure") { Definition = "The number of bars with X direction upper bar."}, new SingleValuePropertyType("YDirectionLowerBarCount", "IfcCountMeasure") { Definition = "The number of bars with Y direction lower bar."}, new SingleValuePropertyType("YDirectionUpperBarCount", "IfcCountMeasure") { Definition = "The number of bars with Y direction upper bar."} }, new [] { "IfcFooting", "IfcFootingType" }); yield return new PropertySetInfo("Pset_ReinforcementBarPitchOfBeam", new IPropertyTypeInfo[] { new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SpacingBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the spacing bar."}, new SingleValuePropertyType("StirrupBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the stirrup bar."} }, new [] { "IfcBeam", "IfcBeamType" }); yield return new PropertySetInfo("Pset_ReinforcementBarPitchOfColumn", new IPropertyTypeInfo[] { new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("HoopBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the hoop bar."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("ReinforcementBarType", new [] { "RING", "SPIRAL", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Defines the type of the reinforcement bar."}, new SingleValuePropertyType("XDirectionTieHoopBarPitch", "IfcPositiveLengthMeasure") { Definition = "The X direction pitch length of the tie hoop."}, new SingleValuePropertyType("XDirectionTieHoopCount", "IfcCountMeasure") { Definition = "The number of bars with X direction tie hoop bars."}, new SingleValuePropertyType("YDirectionTieHoopBarPitch", "IfcPositiveLengthMeasure") { Definition = "The Y direction pitch length of the tie hoop."}, new SingleValuePropertyType("YDirectionTieHoopCount", "IfcCountMeasure") { Definition = "The number of bars with Y direction tie hoop bars."} }, new [] { "IfcColumn", "IfcColumnType" }); yield return new PropertySetInfo("Pset_ReinforcementBarPitchOfContinuousFooting", new IPropertyTypeInfo[] { new SingleValuePropertyType("CrossingLowerBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the crossing lower bar."}, new SingleValuePropertyType("CrossingUpperBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the crossing upper bar."}, new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcFooting", "IfcFootingType" }); @@ -1205,7 +1208,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_ReinforcementBarPitchOfWall", new IPropertyTypeInfo[] { new EnumerationPropertyType("BarAllocationType", new [] { "ALTERNATE", "DOUBLE", "SINGLE", "OTHER", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Defines the type of the reinforcement bar allocation."}, new SingleValuePropertyType("Description", "IfcText") { Definition = "The Description of the object."}, new SingleValuePropertyType("HorizontalBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the horizontal bar."}, new SingleValuePropertyType("Reference", "IfcLabel") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SpacingBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the spacing bar."}, new SingleValuePropertyType("VerticalBarPitch", "IfcPositiveLengthMeasure") { Definition = "The pitch length of the vertical bar."} }, new [] { "IfcWall", "IfcWallType" }); yield return new PropertySetInfo("Pset_RepairOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("MeanTimeToRepair", "IfcTimeMeasure") { Definition = "Mean time to repair."}, new SingleValuePropertyType("RepairContent", "IfcText") { Definition = "Content of repair, reason and nature can be given, e.g. display faults, communication failure, display exchange."}, new SingleValuePropertyType("RepairDate", "IfcDate") { Definition = "Date on which the last repair is done on the asset."} }, new [] { "IfcAsset", "IfcElement", "IfcSystem" }); yield return new PropertySetInfo("Pset_RevetmentCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Elevation", "IfcLengthMeasure") { Definition = "Elevation of the entity"}, new SingleValuePropertyType("StructuralType", "IfcLabel") { Definition = "Structural type of the object"} }, new [] { "IfcMarineFacility" }); - yield return new PropertySetInfo("Pset_Risk", new IPropertyTypeInfo[] { new SingleValuePropertyType("AssociatedActivity", "IfcLabel") { Definition = "An indication or link to any associated activity or process that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new SingleValuePropertyType("AssociatedLocation", "IfcLabel") { Definition = "An indication or link to any associated location or space that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new SingleValuePropertyType("AssociatedProduct", "IfcLabel") { Definition = "An indication or link to any associated product or material that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new EnumerationPropertyType("MitigatedRiskConsequence", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the consequence of the hazard given the planned mitigation."}, new EnumerationPropertyType("MitigatedRiskLikelihood", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the likelihood of the hazard given the planned mitigation."}, new EnumerationPropertyType("MitigatedRiskSignificance", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the signifiance of the risk given the mitigation of likelihood and consequence."}, new SingleValuePropertyType("MitigationPlanned", "IfcLabel") { Definition = "The planned (agreed and irrevocable) mitigation of the likelhood and consequences of the hazard."}, new SingleValuePropertyType("MitigationProposed", "IfcLabel") { Definition = "Any proposed, but not yet agreed and irrevocable, mitigation of the likelhood and consequences of the hazard."}, new SingleValuePropertyType("NatureOfRisk", "IfcLabel") { Definition = "A description of the generic nature of the context or hazard that might be encountered."}, new SingleValuePropertyType("RiskAssessmentMethodology", "IfcLabel") { Definition = "An indication or link to the chosen risk assessment methodology, for example PAS1192-6 or a chosen ISO13100 annex."}, new SingleValuePropertyType("RiskName", "IfcLabel") { Definition = "A locally unique identifier for the risk entry that can be used to track the development and mitiagtion of the risk throughout the project life cycle"}, new EnumerationPropertyType("RiskType", new [] { "ASBESTOSEFFECTS", "ASPHIXIATION", "BUSINESS", "BUSINESSISSUES", "CHEMICALEFFECTS", "COMMERICALISSUES", "CONFINEMENT", "CRUSHING", "DROWNINGANDFLOODING", "ELECTRICSHOCK", "ENVIRONMENTALISSUES", "EVENT", "FALL", "FALLEDGE", "FALLFRAGILEMATERIAL", "FALLSCAFFOLD", "FALL_LADDER", "FIRE_EXPLOSION", "HANDLING", "HAZARD", "HAZARDOUSDUST", "HEALTHANDSAFETY", "HEALTHISSUE", "INSURANCE", "INSURANCE_ISSUES", "LEADEFFECTS", "MACHINERYGUARDING", "MATERIALEFFECTS", "MATERIALSHANDLING", "MECHANICALEFFECTS", "MECHANICAL_LIFTING", "MOBILE_ELEVATEDWORKPLATFORM", "NOISE_EFFECTS", "OPERATIONALISSUES", "OTHERISSUES", "OVERTURINGPLANT", "PUBLICPROTECTIONISSUES", "SAFETYISSUE", "SILICADUST", "SLIPTRIP", "SOCIALISSUES", "STRUCK", "STRUCKFALLINFOBJECT", "STRUCKVEHICLE", "TOOLUSAGE", "TRAPPED", "UNINTENDEDCOLLAPSE", "VIBRATION", "WELFAREISSUE", "WOODDUST", "WORKINGOVERHEAD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of risk from which the type required may be set."}, new EnumerationPropertyType("UnmitigatedRiskConsequence", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the consequence of the hazard prior to any specific mitigation."}, new EnumerationPropertyType("UnmitigatedRiskLikelihood", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the likelihood of the hazard prior to any specific mitigation."}, new EnumerationPropertyType("UnmitigatedRiskSignificance", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the signifiance of the risk given the likelihood and consequence prior to any specific mitigation."} }, new [] { "IfcGroup", "IfcProcess", "IfcProduct", "IfcTypeProcess", "IfcTypeProduct" }); + yield return new PropertySetInfo("Pset_Risk", new IPropertyTypeInfo[] { new SingleValuePropertyType("AssociatedActivity", "IfcLabel") { Definition = "An indication or link to any associated activity or process that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new SingleValuePropertyType("AssociatedLocation", "IfcLabel") { Definition = "An indication or link to any associated location or space that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new SingleValuePropertyType("AssociatedProduct", "IfcLabel") { Definition = "An indication or link to any associated product or material that may trigger the hazard. If used directly on an annotation or semantic object. for an alternative see group use encoding template"}, new EnumerationPropertyType("MitigatedRiskConsequence", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the consequence of the hazard given the planned mitigation."}, new EnumerationPropertyType("MitigatedRiskLikelihood", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the likelihood of the hazard given the planned mitigation."}, new EnumerationPropertyType("MitigatedRiskSignificance", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the significance of the risk given the mitigation of likelihood and consequence."}, new SingleValuePropertyType("MitigationPlanned", "IfcLabel") { Definition = "The planned (agreed and irrevocable) mitigation of the likelhood and consequences of the hazard."}, new SingleValuePropertyType("MitigationProposed", "IfcLabel") { Definition = "Any proposed, but not yet agreed and irrevocable, mitigation of the likelhood and consequences of the hazard."}, new SingleValuePropertyType("NatureOfRisk", "IfcLabel") { Definition = "A description of the generic nature of the context or hazard that might be encountered."}, new SingleValuePropertyType("RiskAssessmentMethodology", "IfcLabel") { Definition = "An indication or link to the chosen risk assessment methodology, for example PAS1192-6 or a chosen ISO13100 annex."}, new SingleValuePropertyType("RiskName", "IfcLabel") { Definition = "A locally unique identifier for the risk entry that can be used to track the development and mitigation of the risk throughout the project life cycle"}, new EnumerationPropertyType("RiskType", new [] { "ASBESTOSEFFECTS", "ASPHIXIATION", "BUSINESS", "BUSINESSISSUES", "CHEMICALEFFECTS", "COMMERICALISSUES", "CONFINEMENT", "CRUSHING", "DROWNINGANDFLOODING", "ELECTRICSHOCK", "ENVIRONMENTALISSUES", "EVENT", "FALL", "FALLEDGE", "FALLFRAGILEMATERIAL", "FALLSCAFFOLD", "FALL_LADDER", "FIRE_EXPLOSION", "HANDLING", "HAZARD", "HAZARDOUSDUST", "HEALTHANDSAFETY", "HEALTHISSUE", "INSURANCE", "INSURANCE_ISSUES", "LEADEFFECTS", "MACHINERYGUARDING", "MATERIALEFFECTS", "MATERIALSHANDLING", "MECHANICALEFFECTS", "MECHANICAL_LIFTING", "MOBILE_ELEVATEDWORKPLATFORM", "NOISE_EFFECTS", "OPERATIONALISSUES", "OTHERISSUES", "OVERTURINGPLANT", "PUBLICPROTECTIONISSUES", "SAFETYISSUE", "SILICADUST", "SLIPTRIP", "SOCIALISSUES", "STRUCK", "STRUCKFALLINFOBJECT", "STRUCKVEHICLE", "TOOLUSAGE", "TRAPPED", "UNINTENDEDCOLLAPSE", "VIBRATION", "WELFAREISSUE", "WOODDUST", "WORKINGOVERHEAD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of risk from which the type required may be set."}, new EnumerationPropertyType("UnmitigatedRiskConsequence", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the consequence of the hazard prior to any specific mitigation."}, new EnumerationPropertyType("UnmitigatedRiskLikelihood", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the likelihood of the hazard prior to any specific mitigation."}, new EnumerationPropertyType("UnmitigatedRiskSignificance", new [] { "CONSIDERABLE", "CRITICAL", "HIGH", "INSIGNIFICANT", "LOW", "MODERATE", "SOME", "VERYHIGH", "VERYLOW", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the significance of the risk given the likelihood and consequence prior to any specific mitigation."} }, new [] { "IfcGroup", "IfcProcess", "IfcProduct", "IfcTypeProcess", "IfcTypeProduct" }); yield return new PropertySetInfo("Pset_RoadDesignCriteriaCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Crossfall", "IfcRatioMeasure") { Definition = "Specifies the nominal crossfall as a ratio measure (slope) at the location of the event."}, new SingleValuePropertyType("DesignSpeed", "IfcLinearVelocityMeasure") { Definition = "Speed selected in designing a new road or in modernizing, strengthening or rehabilitating an existing road section, to determine the various geometric design features of the carriageway that allow a car to travel safely at that speed, under normal road surface and weather conditions.NOTE Definition according to PIARC.\nNOTE The design speed is not constant, but may vary depending on the conditions of relief (plain, hill, mountain)."}, new SingleValuePropertyType("DesignTrafficVolume", "IfcCountMeasure") { Definition = "The traffic volume used for planning and design purposes specified as the number of vehicles per day . Typically given as AADT - Average Annual Daily Traffic"}, new SingleValuePropertyType("DesignVehicleClass", "IfcLabel") { Definition = "A vehicle designator with content according to local standards."}, new SingleValuePropertyType("LaneWidth", "IfcPositiveLengthMeasure") { Definition = "Standard nominal width of one trough lane."}, new SingleValuePropertyType("NumberOfThroughLanes", "IfcCountMeasure") { Definition = "The total number of through lanes on the segment. This excludes auxiliary lanes, parking and turning lanes, acceleration/deceleration lanes, toll collection lanes, shoulders etc."}, new SingleValuePropertyType("RoadDesignClass", "IfcLabel") { Definition = "A road design class designator with content according to local standards."} }, new [] { "IfcFacilityPartCommon", "IfcFacilityPartCommon", "IfcFacilityPartCommon", "IfcRoadPart", "IfcRoadPart", "IfcRoadPart", "IfcRoadPart", "IfcRoadPart", "IfcRoadPart", "IfcRoadPart", "IfcRoad" }); yield return new PropertySetInfo("Pset_RoadGuardElement", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsMoveable", "IfcBoolean") { Definition = "True if element is moveable."}, new SingleValuePropertyType("IsTerminal", "IfcBoolean") { Definition = "True if element is a terminal. See class Terminal."}, new SingleValuePropertyType("IsTransition", "IfcBoolean") { Definition = "True if element is a transition. See class Transition."}, new SingleValuePropertyType("TerminalType", "IfcLabel") { Definition = "Specifies the kind of terminal if IsTerminal is true."} }, new [] { "IfcRailing", "IfcWall", "IfcRailingType", "IfcWallType" }); yield return new PropertySetInfo("Pset_RoadMarkingCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApplicationMethod", "IfcText") { Definition = "State the application method used... e.g. spray, extruded"}, new SingleValuePropertyType("DiagramNumber", "IfcLabel") { Definition = "A designator with content according to local standards, e.g. M25."}, new SingleValuePropertyType("MaterialColour", "IfcLabel") { Definition = "Actual colour on the road marking material"}, new SingleValuePropertyType("MaterialThickness", "IfcPositiveLengthMeasure") { Definition = "Nominal thickness of the applied material"}, new SingleValuePropertyType("MaterialType", "IfcLabel") { Definition = "Material type used... e.g. paint, tape, thermoplastic, stone"}, new SingleValuePropertyType("Structure", "IfcLabel") { Definition = "State if marking is Structured or not, and what type... e.g. Kamflex, Longflex, Dropflex"} }, new [] { "IfcSurfaceFeature", "IfcSurfaceFeature", "IfcSurfaceFeature", "IfcSurfaceFeature" }); @@ -1214,10 +1217,10 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SanitaryTerminalTypeBath", new IPropertyTypeInfo[] { new EnumerationPropertyType("BathType", new [] { "DOMESTIC", "FOOT", "PLUNGE", "POOL", "SITZ", "SPA", "TREATMENT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration defines the types of bath that may be specified within the property set."}, new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new SingleValuePropertyType("HasGrabHandles", "IfcBoolean") { Definition = "Indicates whether the bath is fitted with handles that provide assistance to a bather in entering or leaving the bath."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeBidet", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."}, new SingleValuePropertyType("SpilloverLevel", "IfcPositiveLengthMeasure") { Definition = "The level at which water spills out of the object."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeCistern", new IPropertyTypeInfo[] { new SingleValuePropertyType("CisternCapacity", "IfcVolumeMeasure") { Definition = "Volumetric capacity of the cistern"}, new EnumerationPropertyType("CisternHeight", new [] { "HIGHLEVEL", "LOWLEVEL", "NONE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that identifies the height of the cistern or, if set to 'None' if the urinal has no cistern and is flushed using mains or high pressure water through a flushing valve."}, new SingleValuePropertyType("FlushRate", "IfcVolumeMeasure") { Definition = "The minimum and maximum volume of water used at each flush. Where a single flush is used, the value of upper bound and lower bound should be equal. For a dual flush toilet, the lower bound should be used for the lesser flush rate and the upper bound for the greater flush rate. Where flush is achieved using mains pressure water through a flush valve, the value of upper and lower bound should be equal and should be the same as the flush rate property of the flush valve (see relevant valve property set). Alternatively, in this case, do not assert the flush rate property; refer to the flush rate of the flush valve."}, new EnumerationPropertyType("FlushType", new [] { "LEVER", "PULL", "PUSH", "SENSOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_FlushTypeEnum defines the types of flushing mechanism that may be specified for cisterns and sanitary terminals where:-Lever: Flushing is achieved by twisting a lever that causes a predetermined flow of water to be passed from a cistern to the sanitary terminal.\nPull: Flushing is achieved by pulling a handle or knob vertically upwards that causes a predetermined flow of water to be passed from a cistern to the sanitary terminal.\nPush: Flushing is achieved by pushing a button or plate that causes a predetermined flow of water to be passed from a cistern to the sanitary terminal.\nSensor: Flush is activated through an automatic sensing mechanism."}, new SingleValuePropertyType("IsAutomaticFlush", "IfcBoolean") { Definition = "Boolean value that determines if the cistern is flushed automatically either after each use or periodically (TRUE) or whether manual flushing is required (FALSE)."}, new SingleValuePropertyType("IsSingleFlush", "IfcBoolean") { Definition = "Indicates whether the cistern is single flush = TRUE (i.e. the same amount of water is used for each and every flush) or dual flush = FALSE (i.e. the amount of water used for a flush may be selected by the user to be high or low depending on the waste material to be removed)."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); - yield return new PropertySetInfo("Pset_SanitaryTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); + yield return new PropertySetInfo("Pset_SanitaryTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeSanitaryFountain", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new EnumerationPropertyType("FountainType", new [] { "DRINKINGWATER", "EYEWASH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Selection of the type of fountain from the enumerated list of types where:-DrinkingWater: Sanitary appliance that provides a low pressure jet of drinking water.\nEyewash: Waste water appliance, usually installed in work places where there is a risk of injury to eyes by solid particles or dangerous liquids, with which the user can wash the eyes without touching them."}, new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeShower", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new SingleValuePropertyType("HasTray", "IfcBoolean") { Definition = "Indicates whether the shower has a separate receptacle that catches the water in a shower and directs it to a waste outlet."}, new SingleValuePropertyType("ShowerHeadDescription", "IfcText") { Definition = "A description of the shower head(s) that emit the spray of water."}, new EnumerationPropertyType("ShowerType", new [] { "DRENCH", "INDIVIDUAL", "TUNNEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Selection of the type of shower from the enumerated list of types where:-Drench: Shower that rapidly gives a thorough soaking in an emergency.\nIndividual: Shower unit that is typically enclosed and is for the use of one person at a time.\nTunnel: Shower that has a succession of shower heads or spreaders that operate simultaneously along its length."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); - yield return new PropertySetInfo("Pset_SanitaryTerminalTypeSink", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Stratum colour"}, new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."}, new SingleValuePropertyType("MountingOffset", "IfcLengthMeasure") { Definition = "For counter top mounted basins the vertical offset between the top of the sink and the counter top."}, new EnumerationPropertyType("SinkType", new [] { "BELFAST", "BUCKET", "CLEANERS", "COMBINATION_DOUBLE", "COMBINATION_LEFT", "COMBINATION_RIGHT", "DRIP", "LABORATORY", "LONDON", "PLASTER", "POT", "RINSING", "SHELF", "VEGETABLEPREPARATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Selection of the type of sink from the enumerated list of types where:-Belfast: Deep sink that has a plain edge and a weir overflow\n.\nBucket: Sink at low level, with protected front edge, that facilitates filling and emptying buckets, usually with a hinged grid on which to stand them.\nCleaners: Sink, usually fixed at normal height (900mm), with protected front edge.\nCombination_Left: Sink with integral drainer on left hand side\n.\nCombination_Right: Sink with integral drainer on right hand side\n.\nCombination_Double: Sink with integral drainer on both sides\n.\nDrip: Small sink that catches drips or flow from a faucet\n.\nLaboratory: Sink, of acid resisting material, with a top edge shaped to facilitate fixing to the underside of a desktop\n.\nLondon: Deep sink that has a plain edge and no overflow\n.\nPlaster: Sink with sediment receiver to prevent waste plaster passing into drains\n.\nPot: Large metal sink, with a standing waste, for washing cooking utensils\n.\nRinsing: Metal sink in which water can be heated and culinary utensils and tableware immersed at high temperature that destroys most harmful bacteria and allows subsequent self drying.\n.\nShelf: Ceramic sink with an integral back shelf through which water fittings are mounted\n.\nVegetablePreparation: Large metal sink, with a standing waste, for washing and preparing vegetables\n."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); + yield return new PropertySetInfo("Pset_SanitaryTerminalTypeSink", new IPropertyTypeInfo[] { new SingleValuePropertyType("Colour", "IfcLabel") { Definition = "Colour of this object."}, new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."}, new SingleValuePropertyType("MountingOffset", "IfcLengthMeasure") { Definition = "For counter top mounted basins the vertical offset between the top of the sink and the counter top."}, new EnumerationPropertyType("SinkType", new [] { "BELFAST", "BUCKET", "CLEANERS", "COMBINATION_DOUBLE", "COMBINATION_LEFT", "COMBINATION_RIGHT", "DRIP", "LABORATORY", "LONDON", "PLASTER", "POT", "RINSING", "SHELF", "VEGETABLEPREPARATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Selection of the type of sink from the enumerated list of types where:-Belfast: Deep sink that has a plain edge and a weir overflow\n.\nBucket: Sink at low level, with protected front edge, that facilitates filling and emptying buckets, usually with a hinged grid on which to stand them.\nCleaners: Sink, usually fixed at normal height (900mm), with protected front edge.\nCombination_Left: Sink with integral drainer on left hand side\n.\nCombination_Right: Sink with integral drainer on right hand side\n.\nCombination_Double: Sink with integral drainer on both sides\n.\nDrip: Small sink that catches drips or flow from a faucet\n.\nLaboratory: Sink, of acid resisting material, with a top edge shaped to facilitate fixing to the underside of a desktop\n.\nLondon: Deep sink that has a plain edge and no overflow\n.\nPlaster: Sink with sediment receiver to prevent waste plaster passing into drains\n.\nPot: Large metal sink, with a standing waste, for washing cooking utensils\n.\nRinsing: Metal sink in which water can be heated and culinary utensils and tableware immersed at high temperature that destroys most harmful bacteria and allows subsequent self drying.\n.\nShelf: Ceramic sink with an integral back shelf through which water fittings are mounted\n.\nVegetablePreparation: Large metal sink, with a standing waste, for washing and preparing vegetables\n."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeToiletPan", new IPropertyTypeInfo[] { new EnumerationPropertyType("PanMounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections.\nPedestal: A floor mounted sanitary terminal that has an integral base.\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor."}, new SingleValuePropertyType("SpilloverLevel", "IfcPositiveLengthMeasure") { Definition = "The level at which water spills out of the object."}, new EnumerationPropertyType("ToiletPanType", new [] { "SIPHONIC", "SQUAT", "WASHDOWN", "WASHOUT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_ToiletPanTypeEnum defines the types of toilet pan that may be specified within the property set Pset_Toilet:-Siphonic: Toilet pan in which excrement is removed by siphonage induced by the flushing water.\nSquat: Toilet pan with an elongated bowl installed with its top edge at or near floor level, so that the user has to squat.\nWashDown: Toilet pan in which excrement is removed by the momentum of the flushing water.\nWashOut: A washdown toilet pan in which excrement falls first into a shallow water filled bowl."}, new EnumerationPropertyType("ToiletType", new [] { "BEDPANWASHER", "CHEMICAL", "CLOSECOUPLED", "LOOSECOUPLED", "SLOPHOPPER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that defines the types of toilet (water closet) arrangements that may be specified where:-BedPanWasher: Enclosed soil appliance in which bedpans and urinal bottles are emptied and cleansed.\nChemical: Portable receptacle or soil appliance that receives and retains excrement in either an integral or a separate container, in which it is chemically treated and from which it has to be emptied periodically.\nCloseCoupled: Toilet suite in which a flushing cistern is connected directly to the water closet pan.\nLooseCoupled: Toilet arrangement in which a flushing cistern is connected to the water closet pan through a flushing pipe.\nSlopHopper: Hopper shaped soil appliance with a flushing rim and outlet similar to those of a toilet pan, into which human excrement is emptied for disposal."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeUrinal", new IPropertyTypeInfo[] { new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."}, new SingleValuePropertyType("SpilloverLevel", "IfcPositiveLengthMeasure") { Definition = "The level at which water spills out of the object."}, new EnumerationPropertyType("UrinalType", new [] { "BOWL", "SLAB", "STALL", "TROUGH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Selection of the type of urinal from the enumerated list of types where:-Bowl: Individual wall mounted urinal.\nSlab: Urinal that consists of a slab or sheet fixed to a wall and down which urinal flows into a floor channel.\nStall: Floor mounted urinal that consists of an elliptically shaped sanitary stall fixed to a wall and down which urine flows into a floor channel.\nTrough: Wall mounted urinal of elongated rectangular shape on plan, that can be used by more than one person at a time."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); yield return new PropertySetInfo("Pset_SanitaryTerminalTypeWashHandBasin", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainSize", "IfcPositiveLengthMeasure") { Definition = "The size of the drain outlet connection from the object."}, new EnumerationPropertyType("Mounting", new [] { "BACKTOWALL", "COUNTERTOP", "PEDESTAL", "WALLHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The property enumeration Pset_SanitaryMountingEnum defines the forms of mounting or fixing of the sanitary terminal that may be specified within property sets used to define sanitary terminals (WC’s, basins, sinks, etc.) where:-BackToWall: A pedestal mounted sanitary terminal that fits flush to the wall at the rear to cover its service connections\nPedestal: A floor mounted sanitary terminal that has an integral base\nCounterTop: A sanitary terminal that is installed into a horizontal surface that is installed into a horizontal surface. Note: When applied to a wash hand basin, the term more normally used is ‘vanity’. See also Wash Hand Basin Type specification.\nWallHung: A sanitary terminal cantilevered clear of the floor.Note that BackToWall, Pedestal and WallHung are allowable values for a bidet."}, new SingleValuePropertyType("MountingOffset", "IfcLengthMeasure") { Definition = "For counter top mounted basins the vertical offset between the top of the sink and the counter top."}, new EnumerationPropertyType("WashHandBasinType", new [] { "DENTALCUSPIDOR", "HANDRINSE", "HOSPITAL", "TIPUP", "WASHFOUNTAIN", "WASHINGTROUGH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of wash hand basin that may be specified where:DentalCuspidor: Waste water appliance that receives and flushes away mouth washings\n.\nHandRinse: Wall mounted wash hand basin that has an overall width of 500mm or less\n.\nHospital: Wash hand basin that has a smooth easy clean surface without tapholes or overflow slot for use where hygiene is of prime importance.Tipup: Wash hand basin mounted on pivots so that it can be emptied by tilting.Vanity: Wash hand basin for installation into a horizontal surface.Washfountain: Wash hand basin that is circular, semi-circular or polygonal on plan, at which more than one person can wash at the same time.\nWashingTrough: Wash hand basin of elongated rectangular shape in plan, at which more than one person can wash at the same time."} }, new [] { "IfcSanitaryTerminal", "IfcSanitaryTerminalType" }); @@ -1233,8 +1236,8 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SensorTypeFlowSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The volumetric flow value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeForeignObjectDetectionSensor", new IPropertyTypeInfo[] { new EnumerationPropertyType("ForeignObjectDetectionSensorType", new [] { "DUALPOWERNETWORK", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of foreign object detection sensor."}, new EnumerationPropertyType("SerialInterfaceType", new [] { "RS_232", "RS_422", "RS_485", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of serial interface used by the device."}, new SingleValuePropertyType("WorkingState", "IfcLabel") { Definition = "Indicates the working state of device or system."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeFrostSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointFrost", "IfcPositiveRatioMeasure") { Definition = "The detection of frost."} }, new [] { "IfcSensor", "IfcSensorType" }); - yield return new PropertySetInfo("Pset_SensorTypeGasSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object."}, new SingleValuePropertyType("GasDetected", "IfcLabel") { Definition = "Identification of the gas that is being detected, according to chemical formula. For example, carbon monoxide is 'CO', carbon dioxide is 'CO2', oxygen is 'O2'."}, new SingleValuePropertyType("SetPointConcentration", "IfcPositiveRatioMeasure") { Definition = "The concentration to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); - yield return new PropertySetInfo("Pset_SensorTypeHeatSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object."}, new SingleValuePropertyType("RateOfTemperatureRise", "IfcTemperatureRateOfChangeMeasure") { Definition = "The rate of temperature rise that is to be sensed as being hazardous."}, new SingleValuePropertyType("SetPointTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); + yield return new PropertySetInfo("Pset_SensorTypeGasSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object.\n\nFloor area (typically measured as a circle whose center is at the location of the sensor)."}, new SingleValuePropertyType("GasDetected", "IfcLabel") { Definition = "Identification of the gas that is being detected, according to chemical formula. For example, carbon monoxide is 'CO', carbon dioxide is 'CO2', oxygen is 'O2'."}, new SingleValuePropertyType("SetPointConcentration", "IfcPositiveRatioMeasure") { Definition = "The concentration to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); + yield return new PropertySetInfo("Pset_SensorTypeHeatSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object.\n\nFloor area (typically measured as a circle whose center is at the location of the sensor)."}, new SingleValuePropertyType("RateOfTemperatureRise", "IfcTemperatureRateOfChangeMeasure") { Definition = "The rate of temperature rise that is to be sensed as being hazardous."}, new SingleValuePropertyType("SetPointTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeHumiditySensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointHumidity", "IfcPositiveRatioMeasure") { Definition = "The humidity value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeIdentifierSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointIdentifier", "IfcIdentifier") { Definition = "The detected tag value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeIonConcentrationSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointIonConcentration", "IfcIonConcentrationMeasure") { Definition = "The ion concentration value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."}, new SingleValuePropertyType("SubstanceDetected", "IfcLabel") { Definition = "Identification of the substance that is being detected according to chemical formula. For example, calcium carbonate is 'CaCO3'"} }, new [] { "IfcSensor", "IfcSensorType" }); @@ -1247,7 +1250,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SensorTypeRadiationSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointRadiation", "IfcPowerMeasure") { Definition = "The radiation power value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeRadioactivitySensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointRadioactivity", "IfcRadioActivityMeasure") { Definition = "The radioactivity value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeRainSensor", new IPropertyTypeInfo[] { new EnumerationPropertyType("DataCollectionType", new [] { "AUTOMATICANDCONTINUOUS", "MANUALANDSINGLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type or manner of data collection."}, new SingleValuePropertyType("LengthMeasureResolution", "IfcLengthMeasure") { Definition = "Indicates the resolution for length measure of the device."}, new SingleValuePropertyType("MarginOfError", "IfcRatioMeasure") { Definition = "Indicates the margin of error of the measurement."}, new SingleValuePropertyType("RainMeasureRange", "IfcLengthMeasure") { Definition = "Indicates the measuring range of rain gauge."}, new EnumerationPropertyType("RainSensorType", new [] { "MICROWAVE", "PIEZOELECTRIC", "TIPPINGBUCKET", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of rain sensor or gauge."}, new SingleValuePropertyType("SamplingFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the sampling frequency of the device."}, new EnumerationPropertyType("SerialInterfaceType", new [] { "RS_232", "RS_422", "RS_485", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of serial interface used by the device."}, new SingleValuePropertyType("WorkingState", "IfcLabel") { Definition = "Indicates the working state of device or system."} }, new [] { "IfcSensor", "IfcSensorType" }); - yield return new PropertySetInfo("Pset_SensorTypeSmokeSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object."}, new SingleValuePropertyType("HasBuiltInAlarm", "IfcBoolean") { Definition = "Indicates whether the smoke sensor is included as an element within a smoke alarm/sensor unit (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SetPointConcentration", "IfcPositiveRatioMeasure") { Definition = "The concentration to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); + yield return new PropertySetInfo("Pset_SensorTypeSmokeSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverageArea", "IfcAreaMeasure") { Definition = "The area that is covered by the object.\n\nFloor area (typically measured as a circle whose center is at the location of the sensor)."}, new SingleValuePropertyType("HasBuiltInAlarm", "IfcBoolean") { Definition = "Indicates whether the smoke sensor is included as an element within a smoke alarm/sensor unit (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SetPointConcentration", "IfcPositiveRatioMeasure") { Definition = "The concentration to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeSnowSensor", new IPropertyTypeInfo[] { new EnumerationPropertyType("DataCollectionType", new [] { "AUTOMATICANDCONTINUOUS", "MANUALANDSINGLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type or manner of data collection."}, new SingleValuePropertyType("ImageResolution", "IfcLabel") { Definition = "Indicates the image resolution of snow depth meter."}, new EnumerationPropertyType("ImageShootingMode", new [] { "AUTOMATIC", "MANUAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type or manner of snow depth meter image shooting."}, new SingleValuePropertyType("LengthMeasureResolution", "IfcLengthMeasure") { Definition = "Indicates the resolution for length measure of the device."}, new SingleValuePropertyType("MarginOfError", "IfcRatioMeasure") { Definition = "Indicates the margin of error of the measurement."}, new SingleValuePropertyType("SamplingFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the sampling frequency of the device."}, new EnumerationPropertyType("SerialInterfaceType", new [] { "RS_232", "RS_422", "RS_485", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of serial interface used by the device."}, new SingleValuePropertyType("SnowSensorMeasureRange", "IfcLengthMeasure") { Definition = "Indicates the measuring range of snow depth meter."}, new EnumerationPropertyType("SnowSensorType", new [] { "LASERIRRADIATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of snow depth meter."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeSoundSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointSound", "IfcSoundPressureMeasure") { Definition = "The sound pressure value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_SensorTypeTemperatureSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("SetPointTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."}, new EnumerationPropertyType("TemperatureSensorType", new [] { "HIGHLIMIT", "LOWLIMIT", "OPERATINGTEMPERATURE", "OUTSIDETEMPERATURE", "ROOMTEMPERATURE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that Identifies the types of temperature sensor that can be specified."} }, new [] { "IfcSensor", "IfcSensorType" }); @@ -1255,7 +1258,7 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SensorTypeWindSensor", new IPropertyTypeInfo[] { new SingleValuePropertyType("DampingRatio", "IfcRatioMeasure") { Definition = "Indicates the damping ratio of the device."}, new EnumerationPropertyType("DataCollectionType", new [] { "AUTOMATICANDCONTINUOUS", "MANUALANDSINGLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type or manner of data collection."}, new SingleValuePropertyType("LinearVelocityResolution", "IfcLinearVelocityMeasure") { Definition = "Indicates the resolution of the detected linear velocity."}, new SingleValuePropertyType("MarginOfError", "IfcRatioMeasure") { Definition = "Indicates the margin of error of the measurement."}, new SingleValuePropertyType("SamplingFrequency", "IfcFrequencyMeasure") { Definition = "Indicates the sampling frequency of the device."}, new EnumerationPropertyType("SerialInterfaceType", new [] { "RS_232", "RS_422", "RS_485", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of serial interface used by the device."}, new SingleValuePropertyType("SetPointSpeed", "IfcLinearVelocityMeasure") { Definition = "The wind speed value to be sensed. Use IfcPropertyBoundedValue.SetPointValue to set the set point value."}, new SingleValuePropertyType("StartingWindSpeed", "IfcLinearVelocityMeasure") { Definition = "Indicates the starting wind speed of the wind sensor."}, new SingleValuePropertyType("TimeConstant", "IfcTimeMeasure") { Definition = "The time constant of the sensor."}, new SingleValuePropertyType("WindAngleRange", "IfcPlaneAngleMeasure") { Definition = "Indicates the wind angle range the sensor can monitor."}, new EnumerationPropertyType("WindSensorType", new [] { "CUP", "HOTWIRE", "LASERDOPPLER", "PLATE", "SONIC", "TUBE", "WINDMILL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration that Identifies the types of wind sensors that can be specified."}, new SingleValuePropertyType("WindSpeedRange", "IfcLinearVelocityMeasure") { Definition = "Indicates the range of wind speed the sensor can monitor."}, new SingleValuePropertyType("WorkingState", "IfcLabel") { Definition = "Indicates the working state of device or system."} }, new [] { "IfcSensor", "IfcSensorType" }); yield return new PropertySetInfo("Pset_ServiceLife", new IPropertyTypeInfo[] { new SingleValuePropertyType("MeanTimeBetweenFailure", "IfcDuration") { Definition = "The average time duration between instances of failure of a product."}, new SingleValuePropertyType("ServiceLifeDuration", "IfcDuration") { Definition = "The length or duration of a service life.The lower bound indicates pessimistic service life, the upper bound indicates optimistic service life, and the setpoint indicates the typical service life."} }, new [] { "IfcElement", "IfcElementType" }); yield return new PropertySetInfo("Pset_ServiceLifeFactors", new IPropertyTypeInfo[] { new SingleValuePropertyType("DesignLevel", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of design level employed."}, new SingleValuePropertyType("IndoorEnvironment", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the indoor environment (where appropriate)."}, new SingleValuePropertyType("InUseConditions", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the conditions in which components are operating."}, new SingleValuePropertyType("MaintenanceLevel", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the level or degree of maintenance applied to dcomponents."}, new SingleValuePropertyType("OutdoorEnvironment", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the outdoor environment (where appropriate)"}, new SingleValuePropertyType("QualityOfComponents", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the quality of components used."}, new SingleValuePropertyType("WorkExecutionLevel", "IfcPositiveRatioMeasure") { Definition = "Adjustment of the service life resulting from the effect of the quality of work executed."} }, new [] { "IfcSystem" }); - yield return new PropertySetInfo("Pset_ShadingDeviceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalOperated", "IfcBoolean") { Definition = "Indication whether the element is operated machanically (TRUE) or not, i.e. manually (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roughness", "IfcLabel") { Definition = "A measure of the vertical deviations of the surface."}, new EnumerationPropertyType("ShadingDeviceType", new [] { "FIXED", "MOVABLE", "OVERHANG", "SIDEFIN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Specifies the type of shading device."}, new SingleValuePropertyType("SolarReflectance", "IfcNormalisedRatioMeasure") { Definition = "(Rsol): The ratio of incident solar radiation that is reflected by a glazing system (also named ρe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarTransmittance", "IfcNormalisedRatioMeasure") { Definition = "The ratio of incident solar radiation that directly passes through a system (also named τe). Note the following equation Asol + Rsol + Tsol = 1"}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("SurfaceColour", "IfcLabel"), new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("VisibleLightReflectance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that is reflected by the glazing at normal incidence. It is a value without unit."}, new SingleValuePropertyType("VisibleLightTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that passes the object at normal incidence. It is a value without unit."} }, new [] { "IfcShadingDevice", "IfcShadingDeviceType" }); + yield return new PropertySetInfo("Pset_ShadingDeviceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalOperated", "IfcBoolean") { Definition = "Indication whether the element is operated machanically (TRUE) or not, i.e. manually (FALSE).\n\nIndication whether the element is operated mechanically (TRUE) or not, i.e. manually (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Roughness", "IfcLabel") { Definition = "A measure of the vertical deviations of the surface."}, new EnumerationPropertyType("ShadingDeviceType", new [] { "FIXED", "MOVABLE", "OVERHANG", "SIDEFIN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Specifies the type of shading device."}, new SingleValuePropertyType("SolarReflectance", "IfcNormalisedRatioMeasure") { Definition = "(Rsol): The ratio of incident solar radiation that is reflected by a glazing system (also named ρe). Note the following equation Asol + Rsol + Tsol = 1"}, new SingleValuePropertyType("SolarTransmittance", "IfcNormalisedRatioMeasure") { Definition = "The ratio of incident solar radiation that directly passes through a system (also named τe). Note the following equation Asol + Rsol + Tsol = 1"}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("SurfaceColour", "IfcLabel") { Definition = "The colour of the surface."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials).\n\nThermal transmittance coefficient (U-Value) of a material of a certain thickness for this element."}, new SingleValuePropertyType("VisibleLightReflectance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that is reflected by the glazing at normal incidence. It is a value without unit."}, new SingleValuePropertyType("VisibleLightTransmittance", "IfcNormalisedRatioMeasure") { Definition = "Fraction of the visible light that passes the object at normal incidence. It is a value without unit."} }, new [] { "IfcShadingDevice", "IfcShadingDeviceType" }); yield return new PropertySetInfo("Pset_ShadingDevicePHistory", new IPropertyTypeInfo[] { }, new [] { "IfcShadingDevice" }); yield return new PropertySetInfo("Pset_ShipLockCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CillLevelLowerHead", "IfcLengthMeasure") { Definition = "Height of the lower head cill level"}, new SingleValuePropertyType("CillLevelUpperHead", "IfcLengthMeasure") { Definition = "Height of the upper head cill level"}, new SingleValuePropertyType("WaterDeliverySystemType", "IfcLabel") { Definition = "Type of water delivery system"}, new SingleValuePropertyType("WaterDeliveryValveType", "IfcLabel") { Definition = "Type of water delivery valve"} }, new [] { "IfcMarineFacility" }); yield return new PropertySetInfo("Pset_ShiplockComplex", new IPropertyTypeInfo[] { new SingleValuePropertyType("LockChamberLevels", "IfcCountMeasure") { Definition = "Number of steps (chambers) in a lock line"}, new SingleValuePropertyType("LockGrade", "IfcLabel") { Definition = "Operational grading of the ship lock complex"}, new SingleValuePropertyType("LockLines", "IfcCountMeasure") { Definition = "Number of Parallel lock series"}, new SingleValuePropertyType("LockMode", "IfcLabel") { Definition = "Type of lock system used."} }, new [] { "IfcMarineFacility" }); @@ -1272,31 +1275,31 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SolidStratumComposition", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirVolume", "IfcVolumeMeasure") { Definition = "Relative volume of air stratum constituents."}, new SingleValuePropertyType("BouldersVolume", "IfcVolumeMeasure") { Definition = "Relative volume of boulders (typically larger than 200mm) stratum constituents."}, new SingleValuePropertyType("ClayVolume", "IfcVolumeMeasure") { Definition = "Relative volume of clay (typically smaller than 0.002mm) stratum constituents."}, new SingleValuePropertyType("CobblesVolume", "IfcVolumeMeasure") { Definition = "Relative volume of cobbles (typically larger than 63mm) stratum constituents."}, new EnumerationPropertyType("CompositeFractions", new [] { "BOULDERS", "BOULDERS_WITH_COBBLES", "BOULDERS_WITH_FINER_SOILS", "CLAY", "CLAYEY_SILT", "COBBLES", "COBBLES_WITH_BOULDERS", "COBBLES_WITH_FINER_SOILS", "FILL", "GRAVEL", "GRAVELLY_SAND", "GRAVEL_WITH_CLAY_OR_SILT", "GRAVEL_WITH_COBBLES", "ORGANIC_CLAY", "ORGANIC_SILT", "SAND", "SANDY_CLAYEY_SILT", "SANDY_GRAVEL", "SANDY_GRAVELLY_CLAY", "SANDY_GRAVELLY_SILT", "SANDY_GRAVEL_WITH_COBBLES", "SANDY_PEAT", "SANDY_SILT", "SAND_WITH_CLAY_AND_SILT", "SILT", "SILTY_CLAY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Denomination into soil groups by composite fractions"}, new SingleValuePropertyType("ContaminantVolume", "IfcVolumeMeasure") { Definition = "Relative volume of contaminant stratum constituents."}, new SingleValuePropertyType("FillVolume", "IfcVolumeMeasure") { Definition = "Relative volume of fill (controlled placement of anthropogenic soil) stratum constituents."}, new SingleValuePropertyType("GravelVolume", "IfcVolumeMeasure") { Definition = "Relative volume of gravel (typically larger than 2mm) stratum constituents."}, new SingleValuePropertyType("OrganicVolume", "IfcVolumeMeasure") { Definition = "Relative volume of organic (peat/humus) stratum constituents especially soil."}, new SingleValuePropertyType("RockVolume", "IfcVolumeMeasure") { Definition = "Relative volume of rock stratum constituents."}, new SingleValuePropertyType("SandVolume", "IfcVolumeMeasure") { Definition = "Relative volume of sand (typically smaller than 2mm) stratum constituents."}, new SingleValuePropertyType("SiltVolume", "IfcVolumeMeasure") { Definition = "Relative volume of silt (typically smaller than 0.063mm) stratum constituents."}, new SingleValuePropertyType("WaterVolume", "IfcVolumeMeasure") { Definition = "Relative volume of water stratum constituents."} }, new [] { "IfcGeotechnicalStratum" }); yield return new PropertySetInfo("Pset_SoundAttenuation", new IPropertyTypeInfo[] { new EnumerationPropertyType("SoundScale", new [] { "DBA", "DBB", "DBC", "NC", "NR" } ) { Definition = "The reference sound scale.DBA: Decibels in an A-weighted scale\nDBB: Decibels in an B-weighted scale\nDBC: Decibels in an C-weighted scale\nNC: Noise criteria\nNR: Noise rating"} }, new [] { "IfcAnnotation" }); yield return new PropertySetInfo("Pset_SoundGeneration", new IPropertyTypeInfo[] { }, new [] { "IfcDistributionFlowElement", "IfcDistributionFlowElementType" }); - yield return new PropertySetInfo("Pset_SpaceAirHandlingDimensioning", new IPropertyTypeInfo[] { new SingleValuePropertyType("BoundaryAreaHeatLoss", "IfcHeatFluxDensityMeasure") { Definition = "Heat loss per unit area for the boundary object. This is a design input value for use in the absence of calculated load data."}, new SingleValuePropertyType("CeilingRAPlenum", "IfcBoolean") { Definition = "Ceiling plenum used for return air or not. TRUE = Yes, FALSE = No."}, new SingleValuePropertyType("CoolingDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The air flowrate required during the peak cooling conditions."}, new SingleValuePropertyType("CoolingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature, usually for for cooling design."}, new SingleValuePropertyType("CoolingRelativeHumidity", "IfcPositiveRatioMeasure") { Definition = "Inside relative humidity for cooling design."}, new SingleValuePropertyType("DesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The air flowrate required during the peak cooling conditions."}, new SingleValuePropertyType("HeatingDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The air flowrate required during the peak heating conditions, but could also be determined by minimum ventilation requirement or minimum air change requirements."}, new SingleValuePropertyType("HeatingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature for heating design."}, new SingleValuePropertyType("HeatingRelativeHumidity", "IfcPositiveRatioMeasure") { Definition = "Inside relative humidity for heating design."}, new SingleValuePropertyType("SensibleHeatGain", "IfcPowerMeasure") { Definition = "The sensible heat or energy gained by the space during the peak conditions."}, new SingleValuePropertyType("TotalHeatGain", "IfcPowerMeasure") { Definition = "The total amount of heat or energy gained by the space at the time of the space's peak cooling conditions."}, new SingleValuePropertyType("TotalHeatLoss", "IfcPowerMeasure") { Definition = "The total amount of heat or energy lost by the space at the time of the space's peak heating conditions."}, new SingleValuePropertyType("VentilationDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "Ventilation outside air requirement for the space."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); - yield return new PropertySetInfo("Pset_SpaceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according the local building codes, otherwise (FALSE).\nIt is giving according to the requirements of the national building code."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("PubliclyAccessible", "IfcBoolean") { Definition = "Indication whether this space (in case of e.g., a toilet) is designed to serve as a publicly accessible space, e.g., for a public toilet (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); - yield return new PropertySetInfo("Pset_SpaceCoveringRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("CeilingCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space flooring. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=CEILING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("CeilingCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space ceiling.The thickness information is provided in absence of an IfcCovering (type=CEILING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("ConcealedCeiling", "IfcBoolean") { Definition = "Indication whether this space is designed to have a concealed flooring space (TRUE) or not (FALSE). A concealed ceiling space is normally meant to be the space between a slab and a ceiling."}, new SingleValuePropertyType("ConcealedCeilingOffset", "IfcNonNegativeLengthMeasure") { Definition = "Distance between the upper floor slab and the suspended ceiling, often used for distribution systems. Often referred to as plenum."}, new SingleValuePropertyType("ConcealedFlooring", "IfcBoolean") { Definition = "Indication whether this space is designed to have a concealed flooring space (TRUE) or not (FALSE). A concealed flooring space is normally meant to be the space beneath a raised floor."}, new SingleValuePropertyType("ConcealedFlooringOffset", "IfcNonNegativeLengthMeasure") { Definition = "Distance between the floor slab and the floor covering, often used for cables and other installations. Often referred to as raised flooring."}, new SingleValuePropertyType("FloorCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space flooring. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=FLOORING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("FloorCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space flooring.The thickness information is provided in absence of an IfcCovering (type=FLOORING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("Molding", "IfcLabel") { Definition = "Label to indicate the material or construction of the molding around the space ceiling. The label is used for room book information.The material information is provided in absence of an IfcCovering (type=MOLDING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("MoldingHeight", "IfcPositiveLengthMeasure") { Definition = "Height of the molding.The height information is provided in absence of an IfcCovering (type=MOLDING) object with own shape representation and material assignment. In case of inconsistency the height assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("SkirtingBoard", "IfcLabel") { Definition = "Label to indicate the material or construction of the skirting board around the space flooring. The label is used for room book information.The material information is provided in absence of an IfcCovering (type=SKIRTINGBOARD) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("SkirtingBoardHeight", "IfcPositiveLengthMeasure") { Definition = "Height of the skirting board.The height information is provided in absence of an IfcCovering (type=SKIRTINGBOARD) object with own shape representation and material assignment. In case of inconsistency the height assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("WallCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space flooring. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=CLADDING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("WallCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space cladding.The thickness information is provided in absence of an IfcCovering (type=CLADDING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); - yield return new PropertySetInfo("Pset_SpaceFireSafetyRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirPressurization", "IfcBoolean") { Definition = "Indication whether the space is required to have pressurized air (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRiskFactor", "IfcLabel") { Definition = "Fire Risk factor assigned to the space according to local building regulations. It defines the fire risk of the space at several levels of fire hazard."}, new SingleValuePropertyType("FlammableStorage", "IfcBoolean") { Definition = "Indication whether the space is intended to serve as a storage of flammable material (which is regarded as such by the presiding building code. (TRUE) indicates yes, (FALSE) otherwise."}, new SingleValuePropertyType("SprinklerProtection", "IfcBoolean") { Definition = "Indication whether this object is sprinkler protected (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SprinklerProtectionAutomatic", "IfcBoolean") { Definition = "Indication whether this object has an automatic sprinkler protection (TRUE) or not (FALSE).\nIt should only be given, if the property \"SprinklerProtection\" is set to TRUE."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); + yield return new PropertySetInfo("Pset_SpaceAirHandlingDimensioning", new IPropertyTypeInfo[] { new SingleValuePropertyType("BoundaryAreaHeatLoss", "IfcHeatFluxDensityMeasure") { Definition = "Heat loss per unit area for the boundary object. This is a design input value for use in the absence of calculated load data."}, new SingleValuePropertyType("CeilingRAPlenum", "IfcBoolean") { Definition = "Ceiling plenum used for return air or not. TRUE = Yes, FALSE = No."}, new SingleValuePropertyType("CoolingDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The air flowrate required during the peak cooling conditions."}, new SingleValuePropertyType("CoolingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature, usually for for cooling design."}, new SingleValuePropertyType("CoolingRelativeHumidity", "IfcPositiveRatioMeasure") { Definition = "Inside relative humidity for cooling design."}, new SingleValuePropertyType("DesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "Design air flow rate for the space."}, new SingleValuePropertyType("HeatingDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "The air flowrate required during the peak heating conditions, but could also be determined by minimum ventilation requirement or minimum air change requirements."}, new SingleValuePropertyType("HeatingDryBulb", "IfcThermodynamicTemperatureMeasure") { Definition = "Dry bulb temperature for heating design."}, new SingleValuePropertyType("HeatingRelativeHumidity", "IfcPositiveRatioMeasure") { Definition = "Inside relative humidity for heating design."}, new SingleValuePropertyType("SensibleHeatGain", "IfcPowerMeasure") { Definition = "The sensible heat or energy gained by the space during the peak conditions."}, new SingleValuePropertyType("TotalHeatGain", "IfcPowerMeasure") { Definition = "The total (sensible+latent) amount of heat or energy gained by the space at the time of the space's peak cooling conditions."}, new SingleValuePropertyType("TotalHeatLoss", "IfcPowerMeasure") { Definition = "The total amount of heat or energy lost by the space at the time of the space's peak heating conditions."}, new SingleValuePropertyType("VentilationDesignAirFlow", "IfcVolumetricFlowRateMeasure") { Definition = "Ventilation outside air requirement for the space."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); + yield return new PropertySetInfo("Pset_SpaceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according to the local building codes, otherwise (FALSE). It is giving according to the requirements of the national building code."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("PubliclyAccessible", "IfcBoolean") { Definition = "Indication whether this space (in case of e.g., a toilet) is designed to serve as a publicly accessible space, e.g., for a public toilet (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); + yield return new PropertySetInfo("Pset_SpaceCoveringRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("CeilingCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space ceiling. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=CEILING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("CeilingCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space ceiling.The thickness information is provided in absence of an IfcCovering (type=CEILING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("ConcealedCeiling", "IfcBoolean") { Definition = "Indication whether this space is designed to have a concealed flooring space (TRUE) or not (FALSE). A concealed ceiling space is normally meant to be the space between a slab and a ceiling."}, new SingleValuePropertyType("ConcealedCeilingOffset", "IfcNonNegativeLengthMeasure") { Definition = "Distance between the upper floor slab and the suspended ceiling, often used for distribution systems. Often referred to as plenum."}, new SingleValuePropertyType("ConcealedFlooring", "IfcBoolean") { Definition = "Indication whether this space is designed to have a concealed flooring space (TRUE) or not (FALSE). A concealed flooring space is normally meant to be the space beneath a raised floor."}, new SingleValuePropertyType("ConcealedFlooringOffset", "IfcNonNegativeLengthMeasure") { Definition = "Distance between the floor slab and the floor covering, often used for cables and other installations. Often referred to as raised flooring."}, new SingleValuePropertyType("FloorCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space flooring. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=FLOORING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("FloorCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space flooring.The thickness information is provided in absence of an IfcCovering (type=FLOORING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("Molding", "IfcLabel") { Definition = "Label to indicate the material or construction of the molding around the space ceiling. The label is used for room book information.The material information is provided in absence of an IfcCovering (type=MOLDING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("MoldingHeight", "IfcPositiveLengthMeasure") { Definition = "Height of the molding.The height information is provided in absence of an IfcCovering (type=MOLDING) object with own shape representation and material assignment. In case of inconsistency the height assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("SkirtingBoard", "IfcLabel") { Definition = "Label to indicate the material or construction of the skirting board around the space flooring. The label is used for room book information.The material information is provided in absence of an IfcCovering (type=SKIRTINGBOARD) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("SkirtingBoardHeight", "IfcPositiveLengthMeasure") { Definition = "Height of the skirting board.The height information is provided in absence of an IfcCovering (type=SKIRTINGBOARD) object with own shape representation and material assignment. In case of inconsistency the height assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("WallCovering", "IfcLabel") { Definition = "Label to indicate the material or finish of the space cladding. The label is used for room book information and often displayed in room stamp.The material information is provided in absence of an IfcCovering (type=CLADDING) object with own shape representation and material assignment. In case of inconsistency the material assigned to IfcCovering elements takes precedence."}, new SingleValuePropertyType("WallCoveringThickness", "IfcPositiveLengthMeasure") { Definition = "Thickness of the material layer(s) for the space cladding.The thickness information is provided in absence of an IfcCovering (type=CLADDING) object with own shape representation. In cases of inconsistency between the geometric parameters of an assigned IfcCovering and this attached property, the geometric parameters take precedence."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); + yield return new PropertySetInfo("Pset_SpaceFireSafetyRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirPressurization", "IfcBoolean") { Definition = "Indication whether the space is required to have pressurized air (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere whether the space (in case of e.g., a corridor) is designed to serve as an exit space, e.g., for fire escape purposes."}, new SingleValuePropertyType("FireRiskFactor", "IfcLabel") { Definition = "Fire Risk factor assigned to the space according to local building regulations. It defines the fire risk of the space at several levels of fire hazard."}, new SingleValuePropertyType("FlammableStorage", "IfcBoolean") { Definition = "Indication whether the space is intended to serve as a storage of flammable material (which is regarded as such by the presiding building code. (TRUE) indicates yes, (FALSE) otherwise."}, new SingleValuePropertyType("SprinklerProtection", "IfcBoolean") { Definition = "Indication whether this object is sprinkler protected (TRUE) or not (FALSE)."}, new SingleValuePropertyType("SprinklerProtectionAutomatic", "IfcBoolean") { Definition = "Indication whether this object has an automatic sprinkler protection (TRUE) or not (FALSE).\nIt should only be given, if the property \"SprinklerProtection\" is set to TRUE."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); yield return new PropertySetInfo("Pset_SpaceHeaterPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcSpaceHeater" }); - yield return new PropertySetInfo("Pset_SpaceHeaterTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BodyMass", "IfcMassMeasure") { Definition = "Overall body mass of the heater."}, new EnumerationPropertyType("EnergySource", new [] { "COAL", "COAL_PULVERIZED", "ELECTRICITY", "GAS", "OIL", "PROPANE", "WOOD", "WOOD_CHIP", "WOOD_PELLET", "WOOD_PULVERIZED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the energy source or fuel cumbusted."}, new EnumerationPropertyType("HeatTransferDimension", new [] { "PATH", "POINT", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates how heat is transmitted according to the shape of the space heater."}, new EnumerationPropertyType("HeatTransferMedium", new [] { "STEAM", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the heat transfer medium if applicable."}, new SingleValuePropertyType("NumberOfPanels", "IfcCountMeasure") { Definition = "Number of panels."}, new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections."}, new SingleValuePropertyType("OutputCapacity", "IfcPowerMeasure") { Definition = "Total nominal heat output as listed by the manufacturer."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("SpaceHeaterPlacement", new [] { "BASEBOARD", "SUSPENDED", "TOWELWARMER", "WALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates how the space heater is designed to be placed."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("TemperatureClassification", new [] { "HIGHTEMPERATURE", "LOWTEMPERATURE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the temperature classification of the space heater surface temperature.\nlow temperature - surface temperature is relatively low, usually heated by hot water or electricity.\nhigh temperature - surface temperature is relatively high, usually heated by gas or steam."}, new SingleValuePropertyType("ThermalEfficiency", "IfcNormalisedRatioMeasure") { Definition = "Overall Thermal Efficiency is defined as gross energy output of the heat transfer device divided by the energy input."}, new SingleValuePropertyType("ThermalMassHeatCapacity", "IfcReal") { Definition = "Product of component mass and specific heat."} }, new [] { "IfcSpaceHeater", "IfcSpaceHeaterType" }); + yield return new PropertySetInfo("Pset_SpaceHeaterTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BodyMass", "IfcMassMeasure") { Definition = "Overall body mass of the heater."}, new EnumerationPropertyType("EnergySource", new [] { "COAL", "COAL_PULVERIZED", "ELECTRICITY", "GAS", "OIL", "PROPANE", "WOOD", "WOOD_CHIP", "WOOD_PELLET", "WOOD_PULVERIZED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the energy source or fuel cumbusted.\n\nNote: hydronic heaters shall use UNSET; dual-use hydronic/electric heaters shall use ELECTRICITY."}, new EnumerationPropertyType("HeatTransferDimension", new [] { "PATH", "POINT", "SURFACE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates how heat is transmitted according to the shape of the space heater."}, new EnumerationPropertyType("HeatTransferMedium", new [] { "STEAM", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the heat transfer medium if applicable."}, new SingleValuePropertyType("NumberOfPanels", "IfcCountMeasure") { Definition = "Number of panels."}, new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections.\n\nNumber of vertical sections, measured in the direction of flow."}, new SingleValuePropertyType("OutputCapacity", "IfcPowerMeasure") { Definition = "Total nominal heat output as listed by the manufacturer."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("SpaceHeaterPlacement", new [] { "BASEBOARD", "SUSPENDED", "TOWELWARMER", "WALL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates how the space heater is designed to be placed."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("TemperatureClassification", new [] { "HIGHTEMPERATURE", "LOWTEMPERATURE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Enumeration defining the temperature classification of the space heater surface temperature.\nlow temperature - surface temperature is relatively low, usually heated by hot water or electricity.\nhigh temperature - surface temperature is relatively high, usually heated by gas or steam."}, new SingleValuePropertyType("ThermalEfficiency", "IfcNormalisedRatioMeasure") { Definition = "Overall Thermal Efficiency is defined as gross energy output of the heat transfer device divided by the energy input."}, new SingleValuePropertyType("ThermalMassHeatCapacity", "IfcReal") { Definition = "Product of component mass and specific heat."} }, new [] { "IfcSpaceHeater", "IfcSpaceHeaterType" }); yield return new PropertySetInfo("Pset_SpaceHeaterTypeConvector", new IPropertyTypeInfo[] { new EnumerationPropertyType("ConvectorType", new [] { "FORCED", "NATURAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of convector, whether forced air (mechanically driven) or natural (gravity)."} }, new [] { "IfcSpaceHeater", "IfcSpaceHeaterType" }); yield return new PropertySetInfo("Pset_SpaceHeaterTypeRadiator", new IPropertyTypeInfo[] { new EnumerationPropertyType("RadiatorType", new [] { "FINNEDTUBE", "PANEL", "SECTIONAL", "TUBULAR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the type of radiator."}, new SingleValuePropertyType("TubingLength", "IfcPositiveLengthMeasure") { Definition = "Water tube length inside the component."}, new SingleValuePropertyType("WaterContent", "IfcMassMeasure") { Definition = "Weight of water content within the heater."} }, new [] { "IfcSpaceHeater", "IfcSpaceHeaterType" }); - yield return new PropertySetInfo("Pset_SpaceHVACDesign", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirConditioning", "IfcBoolean") { Definition = "Indication whether this space requires air conditioning provided (TRUE) or not (FALSE)."}, new SingleValuePropertyType("AirConditioningCentral", "IfcBoolean") { Definition = "Indication whether the space requires a central air conditioning provided (TRUE) or not (FALSE).\nIt should only be given, if the property \"AirConditioning\" is set to TRUE."}, new SingleValuePropertyType("AirHandlingName", "IfcLabel") { Definition = "Name of the Air Handling unit or system."}, new SingleValuePropertyType("DiscontinuedHeating", "IfcBoolean") { Definition = "Indication whether discontinued heating is required/desirable from user/designer view point. (TRUE) if yes, (FALSE) otherwise."}, new SingleValuePropertyType("HumidityMax", "IfcPositiveRatioMeasure") { Definition = "Maximum allowed humidity."}, new SingleValuePropertyType("HumidityMin", "IfcPositiveRatioMeasure") { Definition = "Minimum required humidity."}, new SingleValuePropertyType("HumiditySetPoint", "IfcPositiveRatioMeasure") { Definition = "Required Humidity Set Point."}, new SingleValuePropertyType("HumiditySummer", "IfcPositiveRatioMeasure") { Definition = "Required humidity in summer."}, new SingleValuePropertyType("HumidityWinter", "IfcPositiveRatioMeasure") { Definition = "Required humidity in winter."}, new SingleValuePropertyType("MechanicalVentilation", "IfcBoolean") { Definition = "Mechanical Ventilation"}, new SingleValuePropertyType("MechanicalVentilationRate", "IfcCountMeasure") { Definition = "Indication of the requirement of a particular mechanical air ventilation rate, given in air changes per hour."}, new SingleValuePropertyType("NaturalVentilation", "IfcBoolean") { Definition = "Indication whether the space is required to have natural ventilation (TRUE) or mechanical ventilation (FALSE)."}, new SingleValuePropertyType("NaturalVentilationRate", "IfcCountMeasure") { Definition = "Indication of the requirement of a particular natural air ventilation rate, given in air changes per hour."}, new SingleValuePropertyType("TemperatureMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone, that is required from user/designer view point. If no summer or winter space temperature requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("TemperatureMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone, that is required from user/designer view point. If no summer or winter space temperature requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("TemperatureSetPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature setpoint range and default setpoint."}, new SingleValuePropertyType("TemperatureSummerMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone for the hot (summer) period, that is required from user/designer view point and provided as requirement for cooling."}, new SingleValuePropertyType("TemperatureSummerMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone for the hot (summer) period, that is required from user/designer view point and provided as requirement for cooling."}, new SingleValuePropertyType("TemperatureWinterMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone for the cold (winter) period, that is required from user/designer view point and provided as requirement for heating."}, new SingleValuePropertyType("TemperatureWinterMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone for the cold (winter) period, that is required from user/designer view point and provided as requirement for heating."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); + yield return new PropertySetInfo("Pset_SpaceHVACDesign", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirConditioning", "IfcBoolean") { Definition = "Indication whether this space requires air conditioning provided (TRUE) or not (FALSE)."}, new SingleValuePropertyType("AirConditioningCentral", "IfcBoolean") { Definition = "Indication whether the space requires a central air conditioning provided (TRUE) or not (FALSE).\nIt should only be given, if the property \"AirConditioning\" is set to TRUE."}, new SingleValuePropertyType("AirHandlingName", "IfcLabel") { Definition = "The name of the air side system.IfcRelServicesBuildings should be used to reference the correct AirHandlingSystem (IfcSystem)"}, new SingleValuePropertyType("DiscontinuedHeating", "IfcBoolean") { Definition = "Indication whether discontinued heating is required/desirable from user/designer view point. (TRUE) if yes, (FALSE) otherwise."}, new SingleValuePropertyType("HumidityMax", "IfcPositiveRatioMeasure") { Definition = "Maximal permitted humidity of the space or zone that is required from user/designer view point. If no summer or winter space humidity requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("HumidityMin", "IfcPositiveRatioMeasure") { Definition = "Minimal permitted humidity of the space or zone that is required from user/designer view point. If no summer or winter space humidity requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("HumiditySetPoint", "IfcPositiveRatioMeasure") { Definition = "Humidity of the space or zone that is required from user/designer view point. If no summer or winter space humidity requirements are given, it applies all year, otherwise for the intermediate period. Provide this property, if no humidity range (Min-Max) is available."}, new SingleValuePropertyType("HumiditySummer", "IfcPositiveRatioMeasure") { Definition = "Humidity of the space or zone for the hot (summer) period, that is required from user/designer view point and provided as requirement for cooling."}, new SingleValuePropertyType("HumidityWinter", "IfcPositiveRatioMeasure") { Definition = "Humidity of the space or zone for the cold (winter) period that is required from user/designer view point and provided as requirement for heating."}, new SingleValuePropertyType("MechanicalVentilation", "IfcBoolean") { Definition = "Indication whether the space is required to have mechanical ventilation (TRUE), or not (FALSE)."}, new SingleValuePropertyType("MechanicalVentilationRate", "IfcNumericMeasure") { Definition = "Indication of the requirement of a particular mechanical air ventilation rate, given in air changes per hour."}, new SingleValuePropertyType("NaturalVentilation", "IfcBoolean") { Definition = "Indication whether the space is required to have natural ventilation (TRUE), or not (FALSE)."}, new SingleValuePropertyType("NaturalVentilationRate", "IfcNumericMeasure") { Definition = "Indication of the requirement of a particular natural air ventilation rate, given in air changes per hour."}, new SingleValuePropertyType("TemperatureMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone, that is required from user/designer view point. If no summer or winter space temperature requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("TemperatureMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone, that is required from user/designer view point. If no summer or winter space temperature requirements are given, it applies all year, otherwise for the intermediate period."}, new SingleValuePropertyType("TemperatureSetPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature setpoint range and default setpoint."}, new SingleValuePropertyType("TemperatureSummerMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone for the hot (summer) period, that is required from user/designer view point and provided as requirement for cooling."}, new SingleValuePropertyType("TemperatureSummerMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone for the hot (summer) period, that is required from user/designer view point and provided as requirement for cooling."}, new SingleValuePropertyType("TemperatureWinterMax", "IfcThermodynamicTemperatureMeasure") { Definition = "Maximal temperature of the space or zone for the cold (winter) period, that is required from user/designer view point and provided as requirement for heating."}, new SingleValuePropertyType("TemperatureWinterMin", "IfcThermodynamicTemperatureMeasure") { Definition = "Minimal temperature of the space or zone for the cold (winter) period, that is required from user/designer view point and provided as requirement for heating."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); yield return new PropertySetInfo("Pset_SpaceLightingDesign", new IPropertyTypeInfo[] { new SingleValuePropertyType("ArtificialLighting", "IfcBoolean") { Definition = "Indication whether this space requires artificial lighting (as natural lighting would be not sufficient). (TRUE) indicates yes (FALSE) otherwise."}, new SingleValuePropertyType("Illuminance", "IfcIlluminanceMeasure") { Definition = "Required average illuminance value for this space."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); yield return new PropertySetInfo("Pset_SpaceOccupancyRequirements", new IPropertyTypeInfo[] { new SingleValuePropertyType("AreaPerOccupant", "IfcAreaMeasure") { Definition = "Design occupancy loading for this type of usage assigned to this space."}, new SingleValuePropertyType("IsOutlookDesirable", "IfcBoolean") { Definition = "An indication of whether the outlook is desirable (set TRUE) or not (set FALSE)"}, new SingleValuePropertyType("MinimumHeadroom", "IfcLengthMeasure") { Definition = "Headroom required for the activity assigned to this space."}, new SingleValuePropertyType("OccupancyNumber", "IfcCountMeasure") { Definition = "Number of people required for the activity assigned to this space."}, new SingleValuePropertyType("OccupancyNumberPeak", "IfcCountMeasure") { Definition = "Maximal number of people required for the activity assigned to this space in peak time."}, new SingleValuePropertyType("OccupancyTimePerDay", "IfcTimeMeasure") { Definition = "The amount of time during the day that the activity is required within this space."}, new SingleValuePropertyType("OccupancyType", "IfcLabel") { Definition = "Occupancy type for this object.\nIt is defined according to the presiding national building code."} }, new [] { "IfcSpatialElement", "IfcSpatialZone", "IfcZone", "IfcSpatialElementType", "IfcSpatialZoneType" }); yield return new PropertySetInfo("Pset_SpaceParking", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsAisle", "IfcBoolean") { Definition = "Indicates that this parking zone is for accessing the parking units, i.e. an aisle (TRUE) and not a parking unit itself (FALSE)"}, new SingleValuePropertyType("IsOneWay", "IfcBoolean") { Definition = "Indicates whether the parking aisle is designed for oneway traffic (TRUE) or twoway traffic (FALSE). Should only be provided if the property IsAisle is set to TRUE."}, new SingleValuePropertyType("ParkingUnits", "IfcCountMeasure") { Definition = "Indicates the number of transportation units of the type specified by the property ParkingUse that may be accommodated within the space. Generally, this value should default to 1 unit. However, where the parking space is for motorcycles or bicycles, provision may be made for more than one unit in the space."}, new SingleValuePropertyType("ParkingUse", "IfcLabel") { Definition = "Identifies the type of transportation for which the parking space is designed. Values are not predefined but might include car, compact car, motorcycle, bicycle, truck, bus etc."} }, new [] { "IfcSpace", "IfcSpaceType" }); - yield return new PropertySetInfo("Pset_SpaceThermalLoad", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirExchangeRate", "IfcPowerMeasure") { Definition = "Loads from the air exchange rate."}, new SingleValuePropertyType("DryBulbTemperature", "IfcPowerMeasure") { Definition = "Dry bulb temperature of the object."}, new SingleValuePropertyType("EquipmentSensible", "IfcPowerMeasure") { Definition = "Heat gains and losses from equipment."}, new SingleValuePropertyType("ExhaustAir", "IfcPowerMeasure") { Definition = "Loads from exhaust air."}, new SingleValuePropertyType("InfiltrationSensible", "IfcPowerMeasure") { Definition = "Heat gains and losses from infiltration."}, new SingleValuePropertyType("Lighting", "IfcPowerMeasure") { Definition = "Lighting loads."}, new SingleValuePropertyType("People", "IfcPowerMeasure") { Definition = "Heat gains and losses from people."}, new SingleValuePropertyType("RecirculatedAir", "IfcPowerMeasure") { Definition = "Loads from recirculated air."}, new SingleValuePropertyType("RelativeHumidity", "IfcPowerMeasure") { Definition = "Loads from the relative humidity."}, new SingleValuePropertyType("TotalLatentLoad", "IfcPowerMeasure") { Definition = "Total energy added or removed from air that affects its humidity or concentration of water vapor. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("TotalRadiantLoad", "IfcPowerMeasure") { Definition = "Total electromagnetic energy added or removed by emission or absorption. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("TotalSensibleLoad", "IfcPowerMeasure") { Definition = "Total energy added or removed from air that affects its temperature. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("VentilationIndoorAir", "IfcPowerMeasure") { Definition = "Ventilation loads from indoor air."}, new SingleValuePropertyType("VentilationOutdoorAir", "IfcPowerMeasure") { Definition = "Ventilation loads from outdoor air."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); + yield return new PropertySetInfo("Pset_SpaceThermalLoad", new IPropertyTypeInfo[] { new SingleValuePropertyType("AirExchangeRate", "IfcPowerMeasure") { Definition = "Loads from the air exchange rate."}, new SingleValuePropertyType("DryBulbTemperature", "IfcPowerMeasure") { Definition = "Dry bulb temperature of the object.\n\nLoads from the dry bulb temperature."}, new SingleValuePropertyType("EquipmentSensible", "IfcPowerMeasure") { Definition = "Heat gains and losses from equipment."}, new SingleValuePropertyType("ExhaustAir", "IfcPowerMeasure") { Definition = "Loads from exhaust air."}, new SingleValuePropertyType("InfiltrationSensible", "IfcPowerMeasure") { Definition = "Heat gains and losses from infiltration."}, new SingleValuePropertyType("Lighting", "IfcPowerMeasure") { Definition = "Lighting loads."}, new SingleValuePropertyType("People", "IfcPowerMeasure") { Definition = "Heat gains and losses from people."}, new SingleValuePropertyType("RecirculatedAir", "IfcPowerMeasure") { Definition = "Loads from recirculated air."}, new SingleValuePropertyType("RelativeHumidity", "IfcPowerMeasure") { Definition = "Loads from the relative humidity."}, new SingleValuePropertyType("TotalLatentLoad", "IfcPowerMeasure") { Definition = "Total energy added or removed from air that affects its humidity or concentration of water vapor. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("TotalRadiantLoad", "IfcPowerMeasure") { Definition = "Total electromagnetic energy added or removed by emission or absorption. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("TotalSensibleLoad", "IfcPowerMeasure") { Definition = "Total energy added or removed from air that affects its temperature. If a value is less than zero (negative), then the thermal load is lost from the space. If a value is greater than zero (positive), then the thermal load is a gain to the space."}, new SingleValuePropertyType("VentilationIndoorAir", "IfcPowerMeasure") { Definition = "Ventilation loads from indoor air."}, new SingleValuePropertyType("VentilationOutdoorAir", "IfcPowerMeasure") { Definition = "Ventilation loads from outdoor air."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); yield return new PropertySetInfo("Pset_SpaceThermalLoadPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcSpatialElement" }); yield return new PropertySetInfo("Pset_SpaceThermalPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcSpatialElement" }); yield return new PropertySetInfo("Pset_SpatialZoneCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcSpatialZone", "IfcSpatialZoneType" }); yield return new PropertySetInfo("Pset_SpringTensioner", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalWeight", "IfcMassMeasure") { Definition = "Nominal weight of the object."}, new SingleValuePropertyType("TensileStrength", "IfcPressureMeasure") { Definition = "Indicates the ability to withstand breakage apart under applied force."}, new SingleValuePropertyType("TensioningWorkingRange", "IfcForceMeasure") { Definition = "The working range of the tensioning equipment under normal operation."} }, new [] { "IfcDiscreteAccessory", "IfcDiscreteAccessoryType" }); yield return new PropertySetInfo("Pset_StackTerminalTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcStackTerminal", "IfcStackTerminalType" }); - yield return new PropertySetInfo("Pset_StairCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according the local building codes, otherwise (FALSE).\nIt is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasNonSkidSurface", "IfcBoolean") { Definition = "Indication whether the surface finish is designed to prevent slippery (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("NosingLength", "IfcLengthMeasure") { Definition = "Horizontal distance from the front of the tread to the riser underneath. It is the overhang of the tread."}, new SingleValuePropertyType("NumberOfRiser", "IfcCountMeasure") { Definition = "Total number of the risers included in the stair or stair flight."}, new SingleValuePropertyType("NumberOfTreads", "IfcCountMeasure") { Definition = "Total number of treads included in the stair or stairflight."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RequiredHeadroom", "IfcPositiveLengthMeasure") { Definition = "Required headroom clearance for the passageway according to the applicable building code or additional requirements."}, new SingleValuePropertyType("RiserHeight", "IfcPositiveLengthMeasure") { Definition = "Vertical distance from tread to tread.\nThe riser height is supposed to be equal for all steps of a stair or stair flight."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("TreadLength", "IfcPositiveLengthMeasure") { Definition = "Horizontal distance from the front of the thread to the front of the next tread.\nThe tread length is supposed to be equal for all steps of the stair or stair flight at the walking line."}, new SingleValuePropertyType("TreadLengthAtInnerSide", "IfcPositiveLengthMeasure") { Definition = "Minimum length of treads at the inner side of the winder.\nOnly relevant in case of winding flights, for straight flights it is identical with IfcStairFlight.TreadLength. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("TreadLengthAtOffset", "IfcPositiveLengthMeasure") { Definition = "Length of treads at a given offset.\nWalking line position is given by the 'WalkingLineOffset'. The resulting value should normally be identical with TreadLength, it may be given in addition, if the walking line offset for building code calculations is different from that used in design."}, new SingleValuePropertyType("WaistThickness", "IfcPositiveLengthMeasure") { Definition = "Minimum thickness of the stair flight, measured perpendicular to the slope of the flight to the inner corner of riser and tread. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("WalkingLineOffset", "IfcPositiveLengthMeasure") { Definition = "Offset of the walking line from the inner side of the flight.\nNote: the walking line may have a own shape representation (in case of inconsistencies, the value derived from the shape representation shall take precedence)."} }, new [] { "IfcStair", "IfcStairType" }); + yield return new PropertySetInfo("Pset_StairCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere it defines an exit stair in accordance to the national building code."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according to the local building codes, otherwise (FALSE). It is giving according to the requirements of the national building code."}, new SingleValuePropertyType("HasNonSkidSurface", "IfcBoolean") { Definition = "Indication whether the surface finish is designed to prevent slippery (TRUE) or not (FALSE)."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("NosingLength", "IfcLengthMeasure") { Definition = "Horizontal distance from the front of the tread to the riser underneath. It is the overhang of the tread."}, new SingleValuePropertyType("NumberOfRiser", "IfcCountMeasure") { Definition = "Total number of the risers included in the stair or stair flight."}, new SingleValuePropertyType("NumberOfTreads", "IfcCountMeasure") { Definition = "Total number of treads included in the stair or stairflight."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RequiredHeadroom", "IfcPositiveLengthMeasure") { Definition = "Required headroom clearance for the passageway according to the applicable building code or additional requirements."}, new SingleValuePropertyType("RiserHeight", "IfcPositiveLengthMeasure") { Definition = "Vertical distance from tread to tread.\nThe riser height is supposed to be equal for all steps of a stair or stair flight."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("TreadLength", "IfcPositiveLengthMeasure") { Definition = "Horizontal distance from the front of the thread to the front of the next tread.\nThe tread length is supposed to be equal for all steps of the stair or stair flight at the walking line."}, new SingleValuePropertyType("TreadLengthAtInnerSide", "IfcPositiveLengthMeasure") { Definition = "Minimum length of treads at the inner side of the winder.\nOnly relevant in case of winding flights, for straight flights it is identical with IfcStairFlight.TreadLength. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("TreadLengthAtOffset", "IfcPositiveLengthMeasure") { Definition = "Length of treads at a given offset.\nWalking line position is given by the 'WalkingLineOffset'. The resulting value should normally be identical with TreadLength, it may be given in addition, if the walking line offset for building code calculations is different from that used in design."}, new SingleValuePropertyType("WaistThickness", "IfcPositiveLengthMeasure") { Definition = "Minimum thickness of the stair flight, measured perpendicular to the slope of the flight to the inner corner of riser and tread. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("WalkingLineOffset", "IfcPositiveLengthMeasure") { Definition = "Offset of the walking line from the inner side of the flight.\nNote: the walking line may have a own shape representation (in case of inconsistencies, the value derived from the shape representation shall take precedence)."} }, new [] { "IfcStair", "IfcStairType" }); yield return new PropertySetInfo("Pset_StairFlightCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Headroom", "IfcPositiveLengthMeasure") { Definition = "Actual headroom clearance for the passageway according to the current design.\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("NosingLength", "IfcLengthMeasure") { Definition = "Horizontal distance from the front of the tread to the riser underneath. It is the overhang of the tread."}, new SingleValuePropertyType("NumberOfRiser", "IfcCountMeasure") { Definition = "Total number of the risers included in the stair or stair flight."}, new SingleValuePropertyType("NumberOfTreads", "IfcCountMeasure") { Definition = "Total number of treads included in the stair or stairflight."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("RiserHeight", "IfcPositiveLengthMeasure") { Definition = "Vertical distance from tread to tread.\nThe riser height is supposed to be equal for all steps of a stair or stair flight."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TreadLength", "IfcPositiveLengthMeasure") { Definition = "Horizontal distance from the front of the thread to the front of the next tread.\nThe tread length is supposed to be equal for all steps of the stair or stair flight at the walking line."}, new SingleValuePropertyType("TreadLengthAtInnerSide", "IfcPositiveLengthMeasure") { Definition = "Minimum length of treads at the inner side of the winder.\nOnly relevant in case of winding flights, for straight flights it is identical with IfcStairFlight.TreadLength. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("TreadLengthAtOffset", "IfcPositiveLengthMeasure") { Definition = "Length of treads at a given offset.\nWalking line position is given by the 'WalkingLineOffset'. The resulting value should normally be identical with TreadLength, it may be given in addition, if the walking line offset for building code calculations is different from that used in design."}, new SingleValuePropertyType("WaistThickness", "IfcPositiveLengthMeasure") { Definition = "Minimum thickness of the stair flight, measured perpendicular to the slope of the flight to the inner corner of riser and tread. It is a pre-calculated value, in case of inconsistencies, the value derived from the shape representation shall take precedence."}, new SingleValuePropertyType("WalkingLineOffset", "IfcPositiveLengthMeasure") { Definition = "Offset of the walking line from the inner side of the flight.\nNote: the walking line may have a own shape representation (in case of inconsistencies, the value derived from the shape representation shall take precedence)."} }, new [] { "IfcStairFlight", "IfcStairFlightType" }); - yield return new PropertySetInfo("Pset_Stationing", new IPropertyTypeInfo[] { new SingleValuePropertyType("IncomingStation", "IfcLengthMeasure") { Definition = "The optional station value of the incoming segment that ends at this location. This value needs to be set if the intention is to specify a station equation, i.e. a location where stationing changes."}, new SingleValuePropertyType("Station", "IfcLengthMeasure") { Definition = "The station value at this location."} }, new [] { "IfcReferent" }); + yield return new PropertySetInfo("Pset_Stationing", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasIncreasingStation", "IfcBoolean") { Definition = "Inform on the increasing or decreasing progress of stationing values, for referents nested in a given alignment.If present and true, or if not present, then the relevant subsequently nested referents are expected to have greater Pset_Stationing.Station values (i.e., increasing stations).If present and false, then the relevant subsequently nested referents are expected to have lower Pset_Stationing.Station values (i.e., decreasing stations)."}, new SingleValuePropertyType("IncomingStation", "IfcLengthMeasure") { Definition = "The optional station value of the incoming segment that ends at this location. This value needs to be set if the intention is to specify a station equation, i.e. a location where stationing changes."}, new SingleValuePropertyType("Station", "IfcLengthMeasure") { Definition = "The station value at this location."} }, new [] { "IfcReferent" }); yield return new PropertySetInfo("Pset_StructuralSurfaceMemberVaryingThickness", new IPropertyTypeInfo[] { new SingleValuePropertyType("Thickness1", "IfcPositiveLengthMeasure") { Definition = "First thickness parameter of a surface member with varying thickness"}, new SingleValuePropertyType("Thickness2", "IfcPositiveLengthMeasure") { Definition = "Second thickness parameter of a surface member with varying thickness"}, new SingleValuePropertyType("Thickness3", "IfcPositiveLengthMeasure") { Definition = "Third thickness parameter of a surface member with varying thickness"} }, new [] { "IfcStructuralSurfaceMemberVarying" }); yield return new PropertySetInfo("Pset_SumpBusterCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); - yield return new PropertySetInfo("Pset_Superelevation", new IPropertyTypeInfo[] { new EnumerationPropertyType("Side", new [] { "BOTH", "LEFT", "RIGHT" } ) { Definition = "Specifies if the width is measured to the RIGHT or to the LEFT of the curve referenced by the placement, or if the same value is applied to BOTH sides."}, new SingleValuePropertyType("Superelevation", "IfcRatioMeasure") { Definition = "Specifies the superelevation as a ratio measure (slope) at the location of the event."}, new EnumerationPropertyType("TransitionSuperelevation", new [] { "LINEAR" } ) { Definition = "The type of transition of superelevation from previous event to this one."} }, new [] { "IfcAnnotation" }); - yield return new PropertySetInfo("Pset_SwitchingDeviceTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasLock", "IfcBoolean") { Definition = "Indication of whether a switching device has a key operated lock (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("IsIlluminated", "IfcBoolean") { Definition = "An indication of whether there is an illuminated indicator to show that the switch is on (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("Legend", "IfcLabel") { Definition = "A text inscribed or applied to the switch as a legend to indicate purpose or function."}, new SingleValuePropertyType("NumberOfGangs", "IfcCountMeasure") { Definition = "Number of gangs in the object."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("SwitchFunction", new [] { "DOUBLETHROWSWITCH", "INTERMEDIATESWITCH", "ONOFFSWITCH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates types of switches which differs in functionality."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); + yield return new PropertySetInfo("Pset_Superelevation", new IPropertyTypeInfo[] { new EnumerationPropertyType("Side", new [] { "BOTH", "LEFT", "RIGHT" } ) { Definition = "Specifies if the width is measured to the RIGHT or to the LEFT of the curve referenced by the placement, or if the same value is applied to BOTH sides."}, new SingleValuePropertyType("Superelevation", "IfcRatioMeasure") { Definition = "Specifies the superelevation as a ratio measure (slope) at the location of the event."}, new EnumerationPropertyType("TransitionSuperelevation", new [] { "LINEAR" } ) { Definition = "The type of transition of superelevation from previous event to this one."} }, new [] { "IfcReferent" }); + yield return new PropertySetInfo("Pset_SwitchingDeviceTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasLock", "IfcBoolean") { Definition = "Indication of whether a switching device has a key operated lock (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("IsIlluminated", "IfcBoolean") { Definition = "An indication of whether there is an illuminated indicator to show that the switch is on (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("Legend", "IfcLabel") { Definition = "A text inscribed or applied to the switch as a legend to indicate purpose or function."}, new SingleValuePropertyType("NumberOfGangs", "IfcCountMeasure") { Definition = "Number of gangs in the object.\n\nNumber of gangs/buttons on this switch."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("SwitchFunction", new [] { "DOUBLETHROWSWITCH", "INTERMEDIATESWITCH", "ONOFFSWITCH", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates types of switches which differs in functionality."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); yield return new PropertySetInfo("Pset_SwitchingDeviceTypeContactor", new IPropertyTypeInfo[] { new EnumerationPropertyType("ContactorType", new [] { "CAPACITORSWITCHING", "LOWCURRENT", "MAGNETICLATCHING", "MECHANICALLATCHING", "MODULAR", "REVERSING", "STANDARD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of contactor from which that required may be selected where:CapacitorSwitching: for switching 3 phase single or multi-step capacitor banks.\nLowCurrent: requires the use of low resistance contacts.\nMagneticLatching: enables the contactor to remain in the on position when the coil is no longer energized.\nMechanicalLatching: requires that the contactor is mechanically retained in the on position.\nModular: are totally enclosed and self contained.\nReversing: has a double set of contactors that are prewired.\nStandard: is a generic device that controls the flow of power in a circuit on or off."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); yield return new PropertySetInfo("Pset_SwitchingDeviceTypeDimmerSwitch", new IPropertyTypeInfo[] { new EnumerationPropertyType("DimmerType", new [] { "ROCKER", "SELECTOR", "TWIST", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of dimmer switch from which that required may be selected."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); yield return new PropertySetInfo("Pset_SwitchingDeviceTypeEmergencyStop", new IPropertyTypeInfo[] { new SingleValuePropertyType("BreakingCapacity", "IfcElectricCurrentMeasure") { Definition = "The current that a fuse, circuit breaker, or other electrical apparatus is able to interrupt without being destroyed or causing an electric arc with unacceptable duration."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NumberOfAffectedPoles", "IfcCountMeasure") { Definition = "Number of poles that the equipment affects."}, new SingleValuePropertyType("NumberOfEarthFaultRelays", "IfcCountMeasure") { Definition = "Indicates the number of relays used for preventing earth fault."}, new SingleValuePropertyType("NumberOfEmergencyButtons", "IfcCountMeasure") { Definition = "The number of emergency buttons built in the device."}, new SingleValuePropertyType("NumberOfOverCurrentRelays", "IfcCountMeasure") { Definition = "Indicates number of relays used for preventing over current."}, new SingleValuePropertyType("NumberOfPhases", "IfcCountMeasure") { Definition = "Number of phases that the equipment operates on."}, new SingleValuePropertyType("NumberOfRelays", "IfcCountMeasure") { Definition = "Indicates number of relays built in the device."}, new SingleValuePropertyType("RatedFrequency", "IfcFrequencyMeasure") { Definition = "Frequency of the AC electric power supply when the device or system reaches its optimum operating condition."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."}, new EnumerationPropertyType("SwitchOperation", new [] { "MUSHROOM", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates operation of emergency stop switch."}, new SingleValuePropertyType("TransformationRatio", "IfcPositiveRatioMeasure") { Definition = "The ratio of the actual primary current or voltage to the actual secondary current or voltage."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); @@ -1309,16 +1312,16 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_SwitchingDeviceTypeSwitchDisconnector", new IPropertyTypeInfo[] { new EnumerationPropertyType("LoadDisconnectionType", new [] { "OFFLOAD", "ONLOAD", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of load disconnection from which that required may be selected."}, new EnumerationPropertyType("SwitchDisconnectorType", new [] { "CENTERBREAK", "DIVIDEDSUPPORT", "DOUBLEBREAK", "EARTHINGSWITCH", "ISOLATOR", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of switch disconnector from which that required may be selected where:CenterBreak: A disconnector in which both contacts of each pole are movable and engage at a point substantially midway between their supports. (IEC 441-14-08)\nDividedSupport: A disconnector in which the fixed and moving contacts of each pole are not supported by a common base or frame. (IEC 441-14-06)\nDoubleBreak: A disconnector that opens a circuit at two points. (IEC 441-14-09)\nEarthingSwitch: A disconnector in which the fixed and moving contacts of each pole are not supported by a common base or frame. (IEC 441-14-07)\nIsolator: A disconnector which in the open position satisfies isolating requirements. (IEC 441-14-12)"} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); yield return new PropertySetInfo("Pset_SwitchingDeviceTypeToggleSwitch", new IPropertyTypeInfo[] { new EnumerationPropertyType("SwitchActivation", new [] { "ACTUATOR", "FOOT", "HAND", "PROXIMITY", "SOUND", "TWOHAND", "WIRE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available activations for switches from which that required may be selected."}, new EnumerationPropertyType("SwitchUsage", new [] { "EMERGENCY", "GUARD", "LIMIT", "START", "STOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available usages for switches from which that required may be selected."}, new EnumerationPropertyType("ToggleSwitchType", new [] { "BREAKGLASS", "CHANGEOVER", "KEYOPERATED", "MANUALPULL", "PULLCORD", "PUSHBUTTON", "ROCKER", "SELECTOR", "TWIST", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the available types of toggle switch from which that required may be selected."} }, new [] { "IfcSwitchingDevice", "IfcSwitchingDeviceType" }); yield return new PropertySetInfo("Pset_SymmetricPairCable", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfTwistedPairs", "IfcCountMeasure") { Definition = "Total number of twisted wire pairs in copper pair cables."}, new SingleValuePropertyType("NumberOfUntwistedPairs", "IfcCountMeasure") { Definition = "Total number of untwisted wire pairs in the copper pair cable."} }, new [] { "IfcCableSegment", "IfcCableSegmentType" }); - yield return new PropertySetInfo("Pset_SystemFurnitureElementTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Finishing", "IfcLabel") { Definition = "The finishing applied to system furniture elements of this type e.g. walnut, fabric."}, new SingleValuePropertyType("GroupCode", "IfcIdentifier") { Definition = "e.g. panels, worksurfaces, storage, etc."}, new SingleValuePropertyType("IsUsed", "IfcBoolean") { Definition = "Indicates whether the element is being used in a workstation (= TRUE) or not.(= FALSE)."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcSystemFurnitureElement", "IfcSystemFurnitureElementType" }); + yield return new PropertySetInfo("Pset_SystemFurnitureElementTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Finishing", "IfcLabel") { Definition = "The finishing applied to system furniture elements of this type e.g. walnut, fabric."}, new SingleValuePropertyType("GroupCode", "IfcIdentifier") { Definition = "e.g. panels, worksurfaces, storage, etc."}, new SingleValuePropertyType("IsUsed", "IfcBoolean") { Definition = "Indicates whether the element is being used in a workstation (= TRUE) or not.(= FALSE)."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence.\n\nThe nominal height of the system furniture elements of this type. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcSystemFurnitureElement", "IfcSystemFurnitureElementType" }); yield return new PropertySetInfo("Pset_SystemFurnitureElementTypePanel", new IPropertyTypeInfo[] { new EnumerationPropertyType("FurniturePanelType", new [] { "ACOUSTICAL", "DOOR", "ENDS", "GLAZED", "HORZ_SEG", "MONOLITHIC", "OPEN", "SCREEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Available panel types from which that required may be selected."}, new SingleValuePropertyType("HasOpening", "IfcBoolean") { Definition = "indicates whether the panel has an opening (= TRUE) or not (= FALSE)."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcSystemFurnitureElement", "IfcSystemFurnitureElementType" }); yield return new PropertySetInfo("Pset_SystemFurnitureElementTypeSubrack", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfOccupiedUnits", "IfcCountMeasure") { Definition = "Indicates the number of vertical units occupied by the equipment."}, new SingleValuePropertyType("NumberOfSlots", "IfcCountMeasure") { Definition = "Indicates the number of slots."}, new SingleValuePropertyType("NumberOfUnits", "IfcCountMeasure") { Definition = "Indicates the number of vertical units."} }, new [] { "IfcSystemFurnitureElement", "IfcSystemFurnitureElementType" }); yield return new PropertySetInfo("Pset_SystemFurnitureElementTypeWorkSurface", new IPropertyTypeInfo[] { new SingleValuePropertyType("HangingHeight", "IfcPositiveLengthMeasure") { Definition = "The hanging height of the worksurface."}, new SingleValuePropertyType("NominalThickness", "IfcNonNegativeLengthMeasure") { Definition = "The nominal thickness of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("ShapeDescription", "IfcLabel") { Definition = "A description of the shape of the work surface e.g. corner square, rectangle, etc."}, new EnumerationPropertyType("SupportType", new [] { "ACOUSTICAL", "DOOR", "ENDS", "GLAZED", "HORZ_SEG", "MONOLITHIC", "OPEN", "SCREEN", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Available support types from which that required may be selected."}, new SingleValuePropertyType("UsePurpose", "IfcLabel") { Definition = "The principal purpose for which the work surface is intended to be used e.g. writing/reading, computer, meeting, printer, reference files, etc."} }, new [] { "IfcSystemFurnitureElement", "IfcSystemFurnitureElementType" }); yield return new PropertySetInfo("Pset_TankOccurrence", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasLadder", "IfcBoolean") { Definition = "Indication of whether the tank is provided with a ladder (set TRUE) for access to the top. If no ladder is provided then value is set FALSE.Note: No indication is given of the type of ladder (gooseneck etc.)"}, new SingleValuePropertyType("HasVisualIndicator", "IfcBoolean") { Definition = "Indication of whether the tank is provided with a visual indicator (set TRUE) that shows the water level in the tank. If no visual indicator is provided then value is set FALSE."}, new EnumerationPropertyType("TankComposition", new [] { "COMPLEX", "ELEMENT", "PARTIAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the level of element composition where.COMPLEX: A set of elementary units aggregated together to fulfill the overall required purpose.\nELEMENT: A single elementary unit that may exist of itself or as an aggregation of partial units..\nPARTIAL: A partial elementary unit."} }, new [] { "IfcTank" }); - yield return new PropertySetInfo("Pset_TankTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AccessType", new [] { "LOOSECOVER", "MANHOLE", "NONE", "SECUREDCOVER", "SECUREDCOVERWITHMANHOLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of access (or cover) to a tank that may be specified.Note that covers are generally specified for rectangular tanks. For cylindrical tanks, access will normally be via a manhole."}, new SingleValuePropertyType("EffectiveCapacity", "IfcVolumeMeasure") { Definition = "The total effective or actual volumetric capacity of the tank."}, new EnumerationPropertyType("EndShapeType", new [] { "CONCAVECONVEX", "CONCAVEFLAT", "CONVEXCONVEX", "FLATCONVEX", "FLATFLAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of end shapes that can be used for preformed tanks. The convention for reading these enumerated values is that for a vertical cylinder, the first value is the base and the second is the top; for a horizontal cylinder, the order of reading should be left to right. For a speherical tank, the value UNSET should be used."}, new SingleValuePropertyType("FirstCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "FirstCurvatureRadius should be defined as the base or left side radius of curvature value."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("NominalLengthOrDiameter", "IfcPositiveLengthMeasure") { Definition = "The nominal length or, in the case of a vertical cylindrical tank, the nominal diameter of the tank."}, new SingleValuePropertyType("NominalWidthOrDiameter", "IfcPositiveLengthMeasure") { Definition = "The nominal width or, in the case of a horizontal cylindrical tank, the nominal diameter of the tank.Note: Not required for a vertical cylindrical tank."}, new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections."}, new SingleValuePropertyType("OperatingWeight", "IfcMassMeasure") { Definition = "Operating weight of the tank including all of its contents."}, new EnumerationPropertyType("PatternType", new [] { "HORIZONTALCYLINDER", "RECTANGULAR", "VERTICALCYLINDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of pattern (or shape of a tank that may be specified."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecondCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "SecondCurvatureRadius should be defined as the top or right side radius of curvature value."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("StorageType", new [] { "FUEL", "ICE", "OIL", "POTABLEWATER", "RAINWATER", "WASTEWATER", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the general material category intended to be stored."}, new SingleValuePropertyType("TankNominalCapacity", "IfcVolumeMeasure") { Definition = "The total nominal or design volumetric capacity of the tank."} }, new [] { "IfcTank", "IfcTankType" }); + yield return new PropertySetInfo("Pset_TankTypeCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("AccessType", new [] { "LOOSECOVER", "MANHOLE", "NONE", "SECUREDCOVER", "SECUREDCOVERWITHMANHOLE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of access (or cover) to a tank that may be specified.Note that covers are generally specified for rectangular tanks. For cylindrical tanks, access will normally be via a manhole."}, new SingleValuePropertyType("EffectiveCapacity", "IfcVolumeMeasure") { Definition = "The total effective or actual volumetric capacity of the tank."}, new EnumerationPropertyType("EndShapeType", new [] { "CONCAVECONVEX", "CONCAVEFLAT", "CONVEXCONVEX", "FLATCONVEX", "FLATFLAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of end shapes that can be used for preformed tanks. The convention for reading these enumerated values is that for a vertical cylinder, the first value is the base and the second is the top; for a horizontal cylinder, the order of reading should be left to right. For a speherical tank, the value UNSET should be used."}, new SingleValuePropertyType("FirstCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "FirstCurvatureRadius should be defined as the base or left side radius of curvature value."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("NominalLengthOrDiameter", "IfcPositiveLengthMeasure") { Definition = "The nominal length or, in the case of a vertical cylindrical tank, the nominal diameter of the tank."}, new SingleValuePropertyType("NominalWidthOrDiameter", "IfcPositiveLengthMeasure") { Definition = "The nominal width or, in the case of a horizontal cylindrical tank, the nominal diameter of the tank.Note: Not required for a vertical cylindrical tank."}, new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections.\n\nNumber of sections used in the construction of the tank. Default is 1.Note: All sections assumed to be the same size."}, new SingleValuePropertyType("OperatingWeight", "IfcMassMeasure") { Definition = "Operating weight of the tank including all of its contents."}, new EnumerationPropertyType("PatternType", new [] { "HORIZONTALCYLINDER", "RECTANGULAR", "VERTICALCYLINDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of pattern (or shape of a tank that may be specified."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecondCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "SecondCurvatureRadius should be defined as the top or right side radius of curvature value."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("StorageType", new [] { "FUEL", "ICE", "OIL", "POTABLEWATER", "RAINWATER", "WASTEWATER", "WATER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the general material category intended to be stored."}, new SingleValuePropertyType("TankNominalCapacity", "IfcVolumeMeasure") { Definition = "The total nominal or design volumetric capacity of the tank."} }, new [] { "IfcTank", "IfcTankType" }); yield return new PropertySetInfo("Pset_TankTypeExpansion", new IPropertyTypeInfo[] { new SingleValuePropertyType("ChargePressure", "IfcPressureMeasure") { Definition = "Nominal or design operating pressure of the tank."}, new SingleValuePropertyType("PressureRegulatorSetting", "IfcPressureMeasure") { Definition = "Pressure that is automatically maintained in the tank."}, new SingleValuePropertyType("ReliefValveSetting", "IfcPressureMeasure") { Definition = "Pressure at which the relief valve activates."} }, new [] { "IfcTank", "IfcTankType" }); yield return new PropertySetInfo("Pset_TankTypePreformed", new IPropertyTypeInfo[] { new EnumerationPropertyType("EndShapeType", new [] { "CONCAVECONVEX", "CONCAVEFLAT", "CONVEXCONVEX", "FLATCONVEX", "FLATFLAT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of end shapes that can be used for preformed tanks. The convention for reading these enumerated values is that for a vertical cylinder, the first value is the base and the second is the top; for a horizontal cylinder, the order of reading should be left to right. For a speherical tank, the value UNSET should be used."}, new SingleValuePropertyType("FirstCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "FirstCurvatureRadius should be defined as the base or left side radius of curvature value."}, new EnumerationPropertyType("PatternType", new [] { "HORIZONTALCYLINDER", "RECTANGULAR", "VERTICALCYLINDER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the types of pattern (or shape of a tank that may be specified."}, new SingleValuePropertyType("SecondCurvatureRadius", "IfcPositiveLengthMeasure") { Definition = "SecondCurvatureRadius should be defined as the top or right side radius of curvature value."} }, new [] { "IfcTank", "IfcTankType" }); yield return new PropertySetInfo("Pset_TankTypePressureVessel", new IPropertyTypeInfo[] { new SingleValuePropertyType("ChargePressure", "IfcPressureMeasure") { Definition = "Nominal or design operating pressure of the tank."}, new SingleValuePropertyType("PressureRegulatorSetting", "IfcPressureMeasure") { Definition = "Pressure that is automatically maintained in the tank."}, new SingleValuePropertyType("ReliefValveSetting", "IfcPressureMeasure") { Definition = "Pressure at which the relief valve activates."} }, new [] { "IfcTank", "IfcTankType" }); - yield return new PropertySetInfo("Pset_TankTypeSectional", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections."}, new SingleValuePropertyType("SectionLength", "IfcPositiveLengthMeasure") { Definition = "The length of a section used in the construction of the tank."}, new SingleValuePropertyType("SectionWidth", "IfcPositiveLengthMeasure") { Definition = "The width of a section used in the construction of the tank."} }, new [] { "IfcTank", "IfcTankType" }); + yield return new PropertySetInfo("Pset_TankTypeSectional", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfSections", "IfcCountMeasure") { Definition = "Number of sections.\n\nNumber of sections used in the construction of the tankNote: All sections assumed to be the same size."}, new SingleValuePropertyType("SectionLength", "IfcPositiveLengthMeasure") { Definition = "The length of a section used in the construction of the tank."}, new SingleValuePropertyType("SectionWidth", "IfcPositiveLengthMeasure") { Definition = "The width of a section used in the construction of the tank."} }, new [] { "IfcTank", "IfcTankType" }); yield return new PropertySetInfo("Pset_TelecomCableGeneral", new IPropertyTypeInfo[] { new SingleValuePropertyType("Attenuation", "IfcReal") { Definition = "Indicates the optical or electrical attenuation of the cable measured in dB, at a certain wavelength or frequency, changing with the length of the cable."}, new EnumerationPropertyType("CableArmourType", new [] { "DIELECTRIC", "METALLIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The armour type of the cable for mechanical protection."}, new EnumerationPropertyType("CableFunctionType", new [] { "POWERSUPPLY", "TELECOMMUNICATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Distinguishes between Telecom and Power Supply cables."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsFireResistant", "IfcBoolean") { Definition = "Indicates whether the cable is fire resistant."}, new SingleValuePropertyType("JacketColour", "IfcLabel") { Definition = "Indicates the colour of the cable or fitting jacket."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object."} }, new [] { "IfcCableFitting", "IfcCableSegment", "IfcCableFittingType", "IfcCableSegmentType" }); yield return new PropertySetInfo("Pset_ThermalLoad", new IPropertyTypeInfo[] { new SingleValuePropertyType("ApplianceDiversity", "IfcPositiveRatioMeasure") { Definition = "Diversity of appliance load."}, new SingleValuePropertyType("AppliancePercentLoadToRadiant", "IfcPositiveRatioMeasure") { Definition = "Percent of sensible load to radiant heat."}, new SingleValuePropertyType("InfiltrationDiversitySummer", "IfcPositiveRatioMeasure") { Definition = "Diversity factor for Summer infiltration."}, new SingleValuePropertyType("InfiltrationDiversityWinter", "IfcPositiveRatioMeasure") { Definition = "Diversity factor for Winter infiltration."}, new SingleValuePropertyType("LightingDiversity", "IfcPositiveRatioMeasure") { Definition = "Lighting diversity."}, new SingleValuePropertyType("LightingLoadIntensity", "IfcHeatFluxDensityMeasure") { Definition = "Average lighting load intensity in the space per unit area (PowerMeasure/IfcAreaMeasure)."}, new SingleValuePropertyType("LightingPercentLoadToReturnAir", "IfcPositiveRatioMeasure") { Definition = "Percent of lighting load to the return air plenum."}, new SingleValuePropertyType("LoadSafetyFactor", "IfcPositiveRatioMeasure") { Definition = "Load safety factor."}, new SingleValuePropertyType("OccupancyDiversity", "IfcPositiveRatioMeasure") { Definition = "Diversity factor that may be applied to the number of people in the space."}, new SingleValuePropertyType("OutsideAirPerPerson", "IfcVolumetricFlowRateMeasure") { Definition = "Design quantity of outside air to be provided per person in the space."}, new SingleValuePropertyType("ReceptacleLoadIntensity", "IfcHeatFluxDensityMeasure") { Definition = "Average power use intensity of appliances and other non-HVAC equipment in the space per unit area.(PowerMeasure/IfcAreaMeasure)."}, new SingleValuePropertyType("TotalCoolingLoad", "IfcPowerMeasure") { Definition = "The peak total cooling load for the building, zone or space."}, new SingleValuePropertyType("TotalHeatingLoad", "IfcPowerMeasure") { Definition = "The peak total heating load for the building, zone or space."} }, new [] { "IfcSpatialElement", "IfcSpatialElementType" }); yield return new PropertySetInfo("Pset_TicketProcessing", new IPropertyTypeInfo[] { new SingleValuePropertyType("TicketProcessingTime", "IfcTimeMeasure") { Definition = "Indicates the processing time of a ticket."}, new SingleValuePropertyType("TicketStuckRatio", "IfcRatioMeasure") { Definition = "Indicates the ratio of tickets being stuck or jammed in the appliance."} }, new [] { "IfcDoor", "IfcDoor", "IfcDoorType", "IfcDoorType" }); @@ -1334,17 +1337,17 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_TrafficCalmingDeviceCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("TypeDesignation", "IfcLabel") { Definition = "Type designator for the element. The content depends on local standards. Eg. 'Bull nose', 'Half batter', 'Dropper', 'Chamfer' etc"} }, new [] { "IfcElementAssembly", "IfcElementAssemblyType" }); yield return new PropertySetInfo("Pset_TransformerTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("ImaginaryImpedanceRatio", "IfcRatioMeasure") { Definition = "The ratio between the imaginary part of the zero sequence impedance and the imaginary part of the positive impedance (i.e. imaginary part of the short-circuit voltage) of the transformer.\nUsed for three-phase transformer which includes a N-conductor."}, new SingleValuePropertyType("IsNeutralPrimaryTerminalAvailable", "IfcBoolean") { Definition = "An indication of whether the neutral point of the primary winding is available as a terminal (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("IsNeutralSecondaryTerminalAvailable", "IfcBoolean") { Definition = "An indication of whether the neutral point of the secondary winding is available as a terminal (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("MaximumApparentPower", "IfcPowerMeasure") { Definition = "Maximum apparent power/capacity in VA (volt ampere)."}, new SingleValuePropertyType("PrimaryApparentPower", "IfcPowerMeasure") { Definition = "The power in VA (volt ampere) that has been transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("PrimaryCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that is going to be transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("PrimaryFrequency", "IfcFrequencyMeasure") { Definition = "The frequency that is going to be transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("PrimaryVoltage", "IfcElectricVoltageMeasure") { Definition = "The voltage that is going to be transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("RealImpedanceRatio", "IfcRatioMeasure") { Definition = "The ratio between the real part of the zero sequence impedance and the real part of the positive impedance (i.e. real part of the short-circuit voltage) of the transformer.\nUsed for three-phase transformer which includes a N-conductor."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecondaryApparentPower", "IfcPowerMeasure") { Definition = "The power in VA (volt ampere) that has been transformed and is running out of the transformer on the secondary side."}, new SingleValuePropertyType("SecondaryCurrent", "IfcElectricCurrentMeasure") { Definition = "The current that has been transformed and is running out of the transformer on the secondary side."}, new EnumerationPropertyType("SecondaryCurrentType", new [] { "AC", "DC", "NOTKNOWN", "UNSET" } ) { Definition = "A list of the secondary current types that can result from transformer output."}, new SingleValuePropertyType("SecondaryFrequency", "IfcFrequencyMeasure") { Definition = "The frequency that has been transformed and is running out of the transformer on the secondary side."}, new SingleValuePropertyType("SecondaryVoltage", "IfcElectricVoltageMeasure") { Definition = "The voltage that has been transformed and is running out of the transformer on the secondary side."}, new SingleValuePropertyType("ShortCircuitVoltage", "IfcComplexNumber") { Definition = "A complex number that specifies the real and imaginary parts of the short-circuit voltage at rated current of a transformer given in %."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new EnumerationPropertyType("TransformerVectorGroup", new [] { "DD0", "DD6", "DY11", "DY5", "DZ0", "DZ6", "YD11", "YD5", "YY0", "YY6", "YZ11", "YZ5", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "List of the possible vector groups for the transformer from which that required may be set. Values in the enumeration list follow a standard international code where the first letter describes how the primary windings are connected,\nthe second letter describes how the secondary windings are connected, and the numbers describe the rotation of voltages and currents from the primary to the secondary side in multiples of 30 degrees.D: means that the windings are delta-connected.\nY: means that the windings are star-connected.\nZ: means that the windings are zig-zag connected (a special start-connected providing low reactance of the transformer);\nThe connectivity is only relevant for three-phase transformers."} }, new [] { "IfcTransformer", "IfcTransformerType" }); yield return new PropertySetInfo("Pset_TransitionSectionCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalLength", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall length of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In case of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcEarthworksFill" }); - yield return new PropertySetInfo("Pset_TransportElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CapacityPeople", "IfcCountMeasure") { Definition = "Capacity of the transportation element measured in numbers of person."}, new SingleValuePropertyType("CapacityWeight", "IfcMassMeasure") { Definition = "Capacity of the transport element measured by weight."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcTransportationDevice", "IfcTransportationDeviceType" }); - yield return new PropertySetInfo("Pset_TransportElementElevator", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth."}, new SingleValuePropertyType("ClearHeight", "IfcPositiveLengthMeasure") { Definition = "Clear height of the object (elevator).\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width."}, new SingleValuePropertyType("FireFightingLift", "IfcBoolean") { Definition = "Indication whether the elevator is designed to serve as a fire fighting lift the case of fire (TRUE) or not (FALSE). A fire fighting lift is used by fire fighters to access the location of fire and to evacuate people."} }, new [] { "IfcTransportationDevice", "IfcTransportationDeviceType" }); + yield return new PropertySetInfo("Pset_TransportElementCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CapacityPeople", "IfcCountMeasure") { Definition = "Capacity of the transportation element measured in numbers of person."}, new SingleValuePropertyType("CapacityWeight", "IfcMassMeasure") { Definition = "Capacity of the transport element measured by weight."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere whether the transport element (in case of e.g., a lift) is designed to serve as a fire exit, e.g., for fire escape purposes."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcTransportationDevice", "IfcTransportationDeviceType" }); + yield return new PropertySetInfo("Pset_TransportElementElevator", new IPropertyTypeInfo[] { new SingleValuePropertyType("ClearDepth", "IfcPositiveLengthMeasure") { Definition = "The clear depth.\n\nIt indicates the distance from the inner surface of the elevator door to the opposite surface of the elevator car."}, new SingleValuePropertyType("ClearHeight", "IfcPositiveLengthMeasure") { Definition = "Clear height of the object (elevator).\nThe shape information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the shape properties, provided in the attached property, the geometric parameters take precedence."}, new SingleValuePropertyType("ClearWidth", "IfcPositiveLengthMeasure") { Definition = "The clear width.\n\nIt indicates the distance from the inner surfaces of the elevator car left and right from the elevator door."}, new SingleValuePropertyType("FireFightingLift", "IfcBoolean") { Definition = "Indication whether the elevator is designed to serve as a fire fighting lift the case of fire (TRUE) or not (FALSE). A fire fighting lift is used by fire fighters to access the location of fire and to evacuate people."} }, new [] { "IfcTransportElement", "IfcTransportElementType" }); yield return new PropertySetInfo("Pset_TransportEquipmentOTN", new IPropertyTypeInfo[] { new SingleValuePropertyType("ChromaticDispersionTolerance", "IfcReal") { Definition = "Indicates the tolerance of the transport equipment chromatic dispersion. The value is defined by picosecond per nanometer (ps/nm)."}, new SingleValuePropertyType("EquipmentCapacity", "IfcIntegerCountRateMeasure") { Definition = "Indicates the equipment capacity of the appliance. The value is defined in bits/s."}, new SingleValuePropertyType("MinimumOpticalSignalToNoiseRatio", "IfcRatioMeasure") { Definition = "Indicates the minimum optical signal to noise ratio of the transport equipment."}, new SingleValuePropertyType("PolarizationModeDispersionTolerance", "IfcTimeMeasure") { Definition = "Indicates the polarization mode dispersion tolerance of the transport equipment. It is usually measured by picosecond."}, new SingleValuePropertyType("SingleChannelAveragePower", "IfcPowerMeasure") { Definition = "Indicates the average power of a single channel of the transport equipment."}, new SingleValuePropertyType("SingleChannelPower", "IfcPowerMeasure") { Definition = "Indicates the power range of a single channel of the transport equipment."}, new SingleValuePropertyType("SingleWaveTransmissionRate", "IfcFrequencyMeasure") { Definition = "Indicates the single wave transmission rate of the transport equipment."} }, new [] { "IfcCommunicationsAppliance", "IfcCommunicationsApplianceType" }); - yield return new PropertySetInfo("Pset_TrenchExcavationCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcEarthworksCut" }); - yield return new PropertySetInfo("Pset_TubeBundleTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FoulingFactor", "IfcThermalResistanceMeasure") { Definition = "Fouling factor of the tubes in the tube bundle."}, new SingleValuePropertyType("HasTurbulator", "IfcBoolean") { Definition = "TRUE if the tube has a turbulator, FALSE if it does not."}, new SingleValuePropertyType("HorizontalSpacing", "IfcPositiveLengthMeasure") { Definition = "Horizontal spacing between tubes in the tube bundle."}, new SingleValuePropertyType("InLineRowSpacing", "IfcPositiveLengthMeasure") { Definition = "In-line tube row spacing."}, new SingleValuePropertyType("InsideDiameter", "IfcPositiveLengthMeasure") { Definition = "Actual inner diameter of the tube in the tube bundle."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object."}, new SingleValuePropertyType("NumberOfCircuits", "IfcCountMeasure") { Definition = "Number of circuits."}, new SingleValuePropertyType("NumberOfRows", "IfcCountMeasure") { Definition = "Number of tube rows in the tube bundle assembly."}, new SingleValuePropertyType("OutsideDiameter", "IfcPositiveLengthMeasure") { Definition = "Actual outside diameter of the tube in the tube bundle."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("StaggeredRowSpacing", "IfcPositiveLengthMeasure") { Definition = "Staggered tube row spacing."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object."}, new SingleValuePropertyType("VerticalSpacing", "IfcPositiveLengthMeasure") { Definition = "Vertical spacing between tubes in the tube bundle."}, new SingleValuePropertyType("Volume", "IfcVolumeMeasure") { Definition = "Volume of the element."} }, new [] { "IfcTubeBundle", "IfcTubeBundleType" }); - yield return new PropertySetInfo("Pset_TubeBundleTypeFinned", new IPropertyTypeInfo[] { new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object."}, new SingleValuePropertyType("FinCorrugatedType", "IfcLabel") { Definition = "Description of a fin corrugated type."}, new SingleValuePropertyType("HasCoating", "IfcBoolean") { Definition = "TRUE if the fin has a coating, FALSE if it does not."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("Spacing", "IfcPositiveLengthMeasure") { Definition = "Distance between fins on a tube in the tube bundle."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object."}, new SingleValuePropertyType("Thickness", "IfcPositiveLengthMeasure") { Definition = "The geometric thickness of the object."} }, new [] { "IfcTubeBundle", "IfcTubeBundleType" }); - yield return new PropertySetInfo("Pset_Uncertainty", new IPropertyTypeInfo[] { new SingleValuePropertyType("HorizontalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the vertical shape and position in X, if different to the linear uncertainty."}, new SingleValuePropertyType("LinearUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the overall shape and position in XYZ."}, new SingleValuePropertyType("OrthogonalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the horizontal shape and position in Y, if different to the horizontal uncertainty."}, new EnumerationPropertyType("UncertaintyBasis", new [] { "ASSESSMENT", "ESTIMATE", "INTERPRITATION", "MEASUREMENT", "OBSERVATION", "NOTKNOWN", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Indication of the basis of the uncertainty"}, new SingleValuePropertyType("UncertaintyDescription", "IfcText") { Definition = "General description of the uncertainty associated to the element or feature, its source and implications."}, new SingleValuePropertyType("VerticalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the vertical shape and position in Z, if different to the linear uncertainty."} }, new [] { "IfcProduct", "IfcTypeProduct" }); + yield return new PropertySetInfo("Pset_TrenchExcavationCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."} }, new [] { "IfcEarthworksCut" }); + yield return new PropertySetInfo("Pset_TubeBundleTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("FoulingFactor", "IfcThermalResistanceMeasure") { Definition = "Fouling factor of the tubes in the tube bundle."}, new SingleValuePropertyType("HasTurbulator", "IfcBoolean") { Definition = "TRUE if the tube has a turbulator, FALSE if it does not."}, new SingleValuePropertyType("HorizontalSpacing", "IfcPositiveLengthMeasure") { Definition = "Horizontal spacing between tubes in the tube bundle."}, new SingleValuePropertyType("InLineRowSpacing", "IfcPositiveLengthMeasure") { Definition = "In-line tube row spacing."}, new SingleValuePropertyType("InsideDiameter", "IfcPositiveLengthMeasure") { Definition = "Actual inner diameter of the tube in the tube bundle."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object."}, new SingleValuePropertyType("NominalDiameter", "IfcPositiveLengthMeasure") { Definition = "Nominal diameter or width of the object.\n\nNominal diameter or width of the tubes in the tube bundle."}, new SingleValuePropertyType("NumberOfCircuits", "IfcCountMeasure") { Definition = "Number of circuits.\n\nNumber of parallel fluid tube circuits."}, new SingleValuePropertyType("NumberOfRows", "IfcCountMeasure") { Definition = "Number of tube rows in the tube bundle assembly."}, new SingleValuePropertyType("OutsideDiameter", "IfcPositiveLengthMeasure") { Definition = "Actual outside diameter of the tube in the tube bundle."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("StaggeredRowSpacing", "IfcPositiveLengthMeasure") { Definition = "Staggered tube row spacing."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object."}, new SingleValuePropertyType("VerticalSpacing", "IfcPositiveLengthMeasure") { Definition = "Vertical spacing between tubes in the tube bundle."}, new SingleValuePropertyType("Volume", "IfcVolumeMeasure") { Definition = "Volume of the element.\n\nTotal volume of fluid in the tubes and their headers."} }, new [] { "IfcTubeBundle", "IfcTubeBundleType" }); + yield return new PropertySetInfo("Pset_TubeBundleTypeFinned", new IPropertyTypeInfo[] { new SingleValuePropertyType("Diameter", "IfcPositiveLengthMeasure") { Definition = "The Diameter of the object.\n\nFor circular fins only."}, new SingleValuePropertyType("FinCorrugatedType", "IfcLabel") { Definition = "Description of a fin corrugated type."}, new SingleValuePropertyType("HasCoating", "IfcBoolean") { Definition = "TRUE if the fin has a coating, FALSE if it does not."}, new SingleValuePropertyType("Height", "IfcPositiveLengthMeasure") { Definition = "Characteristic height\n\nLength of the fin as measured perpendicular to the direction of airflow."}, new SingleValuePropertyType("Length", "IfcPositiveLengthMeasure") { Definition = "The length of the object.\n\nAs measured parallel to the direction of airflow."}, new SingleValuePropertyType("Spacing", "IfcPositiveLengthMeasure") { Definition = "Distance between fins on a tube in the tube bundle."}, new SingleValuePropertyType("ThermalConductivity", "IfcThermalConductivityMeasure") { Definition = "The thermal conductivity of the object."}, new SingleValuePropertyType("Thickness", "IfcPositiveLengthMeasure") { Definition = "The geometric thickness of the object."} }, new [] { "IfcTubeBundle", "IfcTubeBundleType" }); + yield return new PropertySetInfo("Pset_Uncertainty", new IPropertyTypeInfo[] { new SingleValuePropertyType("HorizontalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the vertical shape and position in X, if different to the linear uncertainty."}, new SingleValuePropertyType("LinearUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the overall shape and position in XYZ."}, new SingleValuePropertyType("OrthogonalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the horizontal shape and position in Y, if different to the horizontal uncertainty."}, new EnumerationPropertyType("UncertaintyBasis", new [] { "ASSESSMENT", "ESTIMATE", "INTERPRETATION", "MEASUREMENT", "OBSERVATION", "NOTKNOWN", "USERDEFINED", "NOTDEFINED" } ) { Definition = "Indication of the basis of the uncertainty"}, new SingleValuePropertyType("UncertaintyDescription", "IfcText") { Definition = "General description of the uncertainty associated to the element or feature, its source and implications."}, new SingleValuePropertyType("VerticalUncertainty", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range diameter associated to the vertical shape and position in Z, if different to the linear uncertainty."} }, new [] { "IfcProduct", "IfcTypeProduct" }); yield return new PropertySetInfo("Pset_UnitaryControlElementBaseStationController", new IPropertyTypeInfo[] { new SingleValuePropertyType("NumberOfManagedBTSs", "IfcCountMeasure") { Definition = "Indicates the maximum number of base transceiver stations (BTSs) that can be handled by the device."}, new SingleValuePropertyType("NumberOfManagedCarriers", "IfcCountMeasure") { Definition = "Indicates how many carrier frequencies can be managed by the device."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); yield return new PropertySetInfo("Pset_UnitaryControlElementPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcUnitaryControlElement" }); yield return new PropertySetInfo("Pset_UnitaryControlElementTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); - yield return new PropertySetInfo("Pset_UnitaryControlElementTypeControlPanel", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NominalPower", "IfcPowerMeasure") { Definition = "A conventional value of apparent power determining a value of the rated current that may be carried with rated voltage applied, under specified conditions. ( IEV ref 421-04-04)"}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ReferenceAirRelativeHumidity", "IfcNormalisedRatioMeasure") { Definition = "Measurement of the ratio of water vapor in the air."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); + yield return new PropertySetInfo("Pset_UnitaryControlElementTypeControlPanel", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured.\n\nA set of nominal currents in [A] for which the data of this instance is valid. At least one value shall be provided. Any value in the set shall not exceed the value of the\nUltimateRatedCurrent associated with the same breaker unit."}, new SingleValuePropertyType("NominalPower", "IfcPowerMeasure") { Definition = "A conventional value of apparent power determining a value of the rated current that may be carried with rated voltage applied, under specified conditions. ( IEV ref 421-04-04)"}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("ReferenceAirRelativeHumidity", "IfcNormalisedRatioMeasure") { Definition = "Measurement of the ratio of water vapor in the air."}, new SingleValuePropertyType("ReferenceEnvironmentTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Ideal temperature range."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); yield return new PropertySetInfo("Pset_UnitaryControlElementTypeIndicatorPanel", new IPropertyTypeInfo[] { new EnumerationPropertyType("UnitaryApplication", new [] { "LIFTARRIVALGONG", "LIFTCARDIRECTIONLANTERN", "LIFTFIRESYSTEMSPORT", "LIFTHALLLANTERN", "LIFTPOSITIONINDICATOR", "LIFTVOICEANNOUNCER", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The application of the unitary control element."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); yield return new PropertySetInfo("Pset_UnitaryControlElementTypeThermostat", new IPropertyTypeInfo[] { new SingleValuePropertyType("TemperatureSetPoint", "IfcThermodynamicTemperatureMeasure") { Definition = "The temperature setpoint range and default setpoint."} }, new [] { "IfcUnitaryControlElement", "IfcUnitaryControlElementType" }); yield return new PropertySetInfo("Pset_UnitaryEquipmentTypeAirConditioningUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("CondenserEnteringTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature of fluid entering condenser."}, new SingleValuePropertyType("CondenserFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Flow rate of fluid through the condenser."}, new SingleValuePropertyType("CondenserLeavingTemperature", "IfcThermodynamicTemperatureMeasure") { Definition = "Temperature of fluid leaving condenser."}, new SingleValuePropertyType("CoolingEfficiency", "IfcPositiveRatioMeasure") { Definition = "Coefficient of Performance: Ratio of cooling energy output to energy input under full load operating conditions."}, new SingleValuePropertyType("HeatingCapacity", "IfcPowerMeasure") { Definition = "Heating capacity."}, new SingleValuePropertyType("HeatingEfficiency", "IfcPositiveRatioMeasure") { Definition = "Heating efficiency under full load heating conditions."}, new SingleValuePropertyType("LatentCoolingCapacity", "IfcPowerMeasure") { Definition = "Latent cooling capacity."}, new SingleValuePropertyType("OutsideAirFlowrate", "IfcVolumetricFlowRateMeasure") { Definition = "Flow rate of outside air entering the unit."}, new SingleValuePropertyType("SensibleCoolingCapacity", "IfcPowerMeasure") { Definition = "Sensible cooling capacity."} }, new [] { "IfcUnitaryEquipment", "IfcUnitaryEquipmentType" }); @@ -1353,19 +1356,19 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_UtilityConsumptionPHistory", new IPropertyTypeInfo[] { }, new [] { "IfcBuilding" }); yield return new PropertySetInfo("Pset_ValvePHistory", new IPropertyTypeInfo[] { }, new [] { "IfcValve" }); yield return new PropertySetInfo("Pset_ValveTypeAirRelease", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsAutomatic", "IfcBoolean") { Definition = "Indication of whether the valve is automatically operated (TRUE) or manually operated (FALSE)."} }, new [] { "IfcValve", "IfcValveType" }); - yield return new PropertySetInfo("Pset_ValveTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CloseOffRating", "IfcPressureMeasure") { Definition = "Close off rating."}, new SingleValuePropertyType("FlowCoefficient", "IfcReal") { Definition = "Flow coefficient (the quantity of fluid that passes through a fully open valve at unit pressure drop), typically expressed as the Kv or Cv value for the valve."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Size", "IfcPositiveLengthMeasure") { Definition = "The size of the connection to the valve (or to each connection for faucets, mixing valves, etc.)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TestPressure", "IfcPressureMeasure") { Definition = "The maximum pressure to which the valve has been subjected under test."}, new EnumerationPropertyType("ValveMechanism", new [] { "BALL", "BUTTERFLY", "CONFIGUREDGATE", "GLAND", "GLOBE", "LUBRICATEDPLUG", "NEEDLE", "PARALLELSLIDE", "PLUG", "WEDGEGATE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The mechanism by which the valve function is achieved where:BALL: Valve that has a ported ball that can be turned relative to the body seat ports.\nBUTTERFLY: Valve in which a streamlined disc pivots about a diametric axis.\nCONFIGUREDGATE: Screwdown valve in which the closing gate is shaped in a configured manner to have a more precise control of pressure and flow change across the valve.\nGLAND: Valve with a tapered seating, in which a rotatable plug is retained by means of a gland and gland packing.\nGLOBE: Screwdown valve that has a spherical body.\nLUBRICATEDPLUG: Plug valve in which a lubricant is injected under pressure between the plug face and the body.\nNEEDLE: Valve for regulating the flow in or from a pipe, in which a slender cone moves along the axis of flow to close against a fixed conical seat.\nPARALLELSLIDE: Screwdown valve that has a machined plate that slides in formed grooves to form a seal.\nPLUG: Valve that has a ported plug that can be turned relative to the body seat ports.\nWEDGEGATE: Screwdown valve that has a wedge shaped plate fitting into tapered guides to form a seal."}, new EnumerationPropertyType("ValveOperation", new [] { "DROPWEIGHT", "FLOAT", "HYDRAULIC", "LEVER", "LOCKSHIELD", "MOTORIZED", "PNEUMATIC", "SOLENOID", "SPRING", "THERMOSTATIC", "WHEEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method of valve operation where:DROPWEIGHT: A valve that is closed by the action of a weighted lever being released, the weight normally being prevented from dropping by being held by a wire, the closure normally being made by the action of heat on a fusible link in the wire\nFLOAT: A valve that is opened and closed by the action of a float that rises and falls with water level. The float may be a ball attached to a lever or other mechanism\nHYDRAULIC: A valve that is opened and closed by hydraulic actuation\nLEVER: A valve that is opened and closed by the action of a lever rotating the gate within the valve.\nLOCKSHIELD: A valve that requires the use of a special lockshield key for opening and closing, the operating mechanism being protected by a shroud during normal operation.\nMOTORIZED: A valve that is opened and closed by the action of an electric motor on an actuator\nPNEUMATIC: A valve that is opened and closed by pneumatic actuation\nSOLENOID: A valve that is normally held open by a magnetic field in a coil acting on the gate but that is closed immediately if the electrical current generating the magnetic field is removed.\nSPRING: A valve that is normally held in position by the pressure of a spring on a plate but that may be caused to open if the pressure of the fluid is sufficient to overcome the spring pressure.\nTHERMOSTATIC: A valve in which the ports are opened or closed to maintain a required predetermined temperature.\nWHEEL: A valve that is opened and closed by the action of a wheel moving the gate within the valve."}, new EnumerationPropertyType("ValvePattern", new [] { "ANGLED_2_PORT", "CROSSOVER_4_PORT", "SINGLEPORT", "STRAIGHT_2_PORT", "STRAIGHT_3_PORT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The configuration of the ports of a valve according to either the linear route taken by a fluid flowing through the valve or by the number of ports where:SINGLEPORT: Valve that has a single entry port from the system that it serves, the exit port being to the surrounding environment.\nANGLED_2_PORT: Valve in which the direction of flow is changed through 90 degrees.\nSTRAIGHT_2_PORT: Valve in which the flow is straight through.\nSTRAIGHT_3_PORT: Valve with three separate ports.\nCROSSOVER_4_PORT: Valve with 4 separate ports."}, new SingleValuePropertyType("WorkingPressure", "IfcPressureMeasure") { Definition = "Working pressure."} }, new [] { "IfcValve", "IfcValveType" }); + yield return new PropertySetInfo("Pset_ValveTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CloseOffRating", "IfcPressureMeasure") { Definition = "Close off rating."}, new SingleValuePropertyType("FlowCoefficient", "IfcReal") { Definition = "Flow coefficient (the quantity of fluid that passes through a fully open valve at unit pressure drop), typically expressed as the Kv or Cv value for the valve."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("Size", "IfcPositiveLengthMeasure") { Definition = "The size of the connection to the valve (or to each connection for faucets, mixing valves, etc.)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("TestPressure", "IfcPressureMeasure") { Definition = "The maximum pressure to which the valve has been subjected under test."}, new EnumerationPropertyType("ValveMechanism", new [] { "BALL", "BUTTERFLY", "CONFIGUREDGATE", "GLAND", "GLOBE", "LUBRICATEDPLUG", "NEEDLE", "PARALLELSLIDE", "PLUG", "WEDGEGATE", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The mechanism by which the valve function is achieved where:BALL: Valve that has a ported ball that can be turned relative to the body seat ports.\nBUTTERFLY: Valve in which a streamlined disc pivots about a diametric axis.\nCONFIGUREDGATE: Screwdown valve in which the closing gate is shaped in a configured manner to have a more precise control of pressure and flow change across the valve.\nGLAND: Valve with a tapered seating, in which a rotatable plug is retained by means of a gland and gland packing.\nGLOBE: Screwdown valve that has a spherical body.\nLUBRICATEDPLUG: Plug valve in which a lubricant is injected under pressure between the plug face and the body.\nNEEDLE: Valve for regulating the flow in or from a pipe, in which a slender cone moves along the axis of flow to close against a fixed conical seat.\nPARALLELSLIDE: Screwdown valve that has a machined plate that slides in formed grooves to form a seal.\nPLUG: Valve that has a ported plug that can be turned relative to the body seat ports.\nWEDGEGATE: Screwdown valve that has a wedge shaped plate fitting into tapered guides to form a seal."}, new EnumerationPropertyType("ValveOperation", new [] { "DROPWEIGHT", "FLOAT", "HYDRAULIC", "LEVER", "LOCKSHIELD", "MOTORIZED", "PNEUMATIC", "SOLENOID", "SPRING", "THERMOSTATIC", "WHEEL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The method of valve operation where:DROPWEIGHT: A valve that is closed by the action of a weighted lever being released, the weight normally being prevented from dropping by being held by a wire, the closure normally being made by the action of heat on a fusible link in the wire\nFLOAT: A valve that is opened and closed by the action of a float that rises and falls with water level. The float may be a ball attached to a lever or other mechanism\nHYDRAULIC: A valve that is opened and closed by hydraulic actuation\nLEVER: A valve that is opened and closed by the action of a lever rotating the gate within the valve.\nLOCKSHIELD: A valve that requires the use of a special lockshield key for opening and closing, the operating mechanism being protected by a shroud during normal operation.\nMOTORIZED: A valve that is opened and closed by the action of an electric motor on an actuator\nPNEUMATIC: A valve that is opened and closed by pneumatic actuation\nSOLENOID: A valve that is normally held open by a magnetic field in a coil acting on the gate but that is closed immediately if the electrical current generating the magnetic field is removed.\nSPRING: A valve that is normally held in position by the pressure of a spring on a plate but that may be caused to open if the pressure of the fluid is sufficient to overcome the spring pressure.\nTHERMOSTATIC: A valve in which the ports are opened or closed to maintain a required predetermined temperature.\nWHEEL: A valve that is opened and closed by the action of a wheel moving the gate within the valve."}, new EnumerationPropertyType("ValvePattern", new [] { "ANGLED_2_PORT", "CROSSOVER_4_PORT", "SINGLEPORT", "STRAIGHT_2_PORT", "STRAIGHT_3_PORT", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "The configuration of the ports of a valve according to either the linear route taken by a fluid flowing through the valve or by the number of ports where:SINGLEPORT: Valve that has a single entry port from the system that it serves, the exit port being to the surrounding environment.\nANGLED_2_PORT: Valve in which the direction of flow is changed through 90 degrees.\nSTRAIGHT_2_PORT: Valve in which the flow is straight through.\nSTRAIGHT_3_PORT: Valve with three separate ports.\nCROSSOVER_4_PORT: Valve with 4 separate ports."}, new SingleValuePropertyType("WorkingPressure", "IfcPressureMeasure") { Definition = "Working pressure.\n\nThe normally expected maximum working pressure of the valve."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypeDrawOffCock", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasHoseUnion", "IfcBoolean") { Definition = "Indicates whether the object is fitted with a hose union connection (= TRUE) or not (= FALSE)."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypeFaucet", new IPropertyTypeInfo[] { new EnumerationPropertyType("FaucetFunction", new [] { "COLD", "HOT", "MIXED", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the operating temperature of a faucet that may be specified."}, new EnumerationPropertyType("FaucetOperation", new [] { "CERAMICDISC", "LEVERHANDLE", "NONCONCUSSIVESELFCLOSING", "QUARTERTURN", "QUICKACTION", "SCREWDOWN", "SELFCLOSING", "TIMEDSELFCLOSING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the range of ways in which a faucet can be operated that may be specified where:CeramicDisc: Quick action faucet with a ceramic seal to open or close the orifice\n.\nLeverHandle: Quick action faucet that is operated by a lever handle\n.\nNonConcussiveSelfClosing: Self closing faucet that does not induce surge pressure\n.\nQuarterTurn: Quick action faucet that can be fully opened or shut by turning the operating mechanism through 90 degrees.\nQuickAction: Faucet that can be opened or closed fully with a single small movement of the operating mechanism\n.\nScrewDown: Faucet in which a plate or disc is moved, by the rotation of a screwed spindle, to close or open the orifice.\nSelfClosing: Faucet that is opened by pressure of the top of an operating spindle and is closed under the action of a spring or weight when the pressure is released.\nTimedSelfClosing: Self closing faucet that discharges for a predetermined period of time\n."}, new SingleValuePropertyType("FaucetTopDescription", "IfcText") { Definition = "Description of the operating mechanism/top of the faucet."}, new EnumerationPropertyType("FaucetType", new [] { "BIB", "DIVERTER", "DIVIDEDFLOWCOMBINATION", "GLOBE", "PILLAR", "SINGLEOUTLETCOMBINATION", "SPRAY", "SPRAYMIXING", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the range of faucet types that may be specified where:Bib: Faucet with a horizontal inlet and a nozzle that discharges downwards.\nGlobe: Faucet fitted through the end of a bath, with a horizontal inlet, a partially spherical body and a vertical nozzle.\nDiverter: Combination faucet assembly with a valve to enable the flow of mixed water to be transferred to a showerhead.\nDividedFlowCombination: Combination faucet assembly in which hot and cold water are kept separate until emerging from a common nozzle\n.\nPillar: Faucet that has a vertical inlet and a nozzle that discharges downwards\n.\nSingleOutletCombination = Combination faucet assembly in which hot and cold water mix before emerging from a common nozzle\n.\nSpray: Faucet with a spray outlet\n.\nSprayMixing: Spray faucet connected to hot and cold water supplies that delivers water at a temperature determined during use."}, new SingleValuePropertyType("Finish", "IfcText") { Definition = "Description of the (surface) finish of the object for informational purposes."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypeFlushing", new IPropertyTypeInfo[] { new SingleValuePropertyType("FlushingRate", "IfcVolumetricFlowRateMeasure") { Definition = "The predetermined quantity of water to be flushed."}, new SingleValuePropertyType("HasIntegralShutOffDevice", "IfcBoolean") { Definition = "Indication of whether the flushing valve has an integral shut off device fitted (set TRUE) or not (set FALSE)."}, new SingleValuePropertyType("IsHighPressure", "IfcBoolean") { Definition = "Indication of whether the flushing valve is suitable for use on a high pressure water main (set TRUE) or not (set FALSE)."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypeGasTap", new IPropertyTypeInfo[] { new SingleValuePropertyType("HasHoseUnion", "IfcBoolean") { Definition = "Indicates whether the object is fitted with a hose union connection (= TRUE) or not (= FALSE)."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypeIsolating", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsNormallyOpen", "IfcBoolean") { Definition = "If TRUE, the valve is normally open. If FALSE is is normally closed."}, new EnumerationPropertyType("IsolatingPurpose", new [] { "LANDING", "LANDINGWITHPRESSUREREGULATION", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the purpose for which the isolating valve is used since the way in which the valve is identified as an isolating valve may be in the context of its use. Note that unless there is a contextual name for the isolating valve (as in the case of a Landing Valve on a rising fire main), then the value assigned shoulkd be UNSET."} }, new [] { "IfcValve", "IfcValveType" }); - yield return new PropertySetInfo("Pset_ValveTypeMixing", new IPropertyTypeInfo[] { new EnumerationPropertyType("MixerControl", new [] { "MANUAL", "PREDEFINED", "THERMOSTATIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the form of control of the mixing valve."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."} }, new [] { "IfcValve", "IfcValveType" }); + yield return new PropertySetInfo("Pset_ValveTypeMixing", new IPropertyTypeInfo[] { new EnumerationPropertyType("MixerControl", new [] { "MANUAL", "PREDEFINED", "THERMOSTATIC", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Defines the form of control of the mixing valve."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object.\n\nThe size of the pipework connection from the mixing valve."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypePressureReducing", new IPropertyTypeInfo[] { new SingleValuePropertyType("DownstreamPressure", "IfcPressureMeasure") { Definition = "The operating pressure of the fluid downstream of the pressure reducing valve."}, new SingleValuePropertyType("UpstreamPressure", "IfcPressureMeasure") { Definition = "The operating pressure of the fluid upstream of the pressure reducing valve."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_ValveTypePressureRelief", new IPropertyTypeInfo[] { new SingleValuePropertyType("ReliefPressure", "IfcPressureMeasure") { Definition = "The pressure at which the spring or weight in the valve is set to discharge fluid."} }, new [] { "IfcValve", "IfcValveType" }); yield return new PropertySetInfo("Pset_VegetationCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("BotanicalName", "IfcLabel") { Definition = "Formal scientific name conforming to the International Code of Nomenclature for algae, fungi, and plants (ICN)"}, new SingleValuePropertyType("LocalName", "IfcLabel") { Definition = "The local name that the plant is known as."} }, new [] { "IfcGeographicElement" }); - yield return new PropertySetInfo("Pset_VehicleAvailability", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaintenanceDowntime", "IfcRatioMeasure") { Definition = "Maintenance downtime proportion."}, new SingleValuePropertyType("VehicleAvailability", "IfcRatioMeasure") { Definition = "Vehicle or Plant availability"}, new SingleValuePropertyType("WeatherDowntime", "IfcRatioMeasure") { Definition = "Weather downtime proportion"} }, new [] { "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType" }); - yield return new PropertySetInfo("Pset_VesselLineCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CentreLineToFairlead", "IfcLengthMeasure") { Definition = "Distance from the vessel centreline to the fairlead for the line"}, new SingleValuePropertyType("FairleadToTermination", "IfcLengthMeasure") { Definition = "Distance from the fairlead to the bitt or winch on the vessel where the line terminates"}, new SingleValuePropertyType("HeightAboveMainDeck", "IfcLengthMeasure") { Definition = "Height of the fairlead above the main deck of the vessel"}, new SingleValuePropertyType("LineIdentifier", "IfcIdentifier") { Definition = "Reference ID relative to a design vessel in the project"}, new SingleValuePropertyType("LineStrength", "IfcForceMeasure") { Definition = "Breaking load of the line (note that ultimate stress is not part of any of the material Psets)"}, new SingleValuePropertyType("LineType", "IfcLabel") { Definition = "Mooring line type"}, new SingleValuePropertyType("MidshipToFairLead", "IfcLengthMeasure") { Definition = "Distance from the vessel midship to the fairlead for the line"}, new SingleValuePropertyType("PreTensionAim", "IfcForceMeasure") { Definition = "Line force that the winch is set to maintain (minimum load)"}, new SingleValuePropertyType("TailDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of the tail"}, new SingleValuePropertyType("TailLength", "IfcPositiveLengthMeasure") { Definition = "Length of the tail"}, new SingleValuePropertyType("TailStrength", "IfcForceMeasure") { Definition = "Breaking load of the tail (note that ultimate stress is not part of any of the material Psets)"}, new SingleValuePropertyType("TailType", "IfcLabel") { Definition = "Mooring tail type"}, new SingleValuePropertyType("WinchBreakLimit", "IfcForceMeasure") { Definition = "Line force at which the winch starts to release the line (maximum load)"} }, new [] { "IfcMechanicalFastener", "IfcMechanicalFastener", "IfcMechanicalFastenerType", "IfcMechanicalFastenerType" }); - yield return new PropertySetInfo("Pset_VibrationIsolatorTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsolatorCompressibility", "IfcRatioMeasure") { Definition = "The compressibility of the vibration isolator."}, new SingleValuePropertyType("IsolatorStaticDeflection", "IfcLengthMeasure") { Definition = "Static deflection of the vibration isolator."}, new SingleValuePropertyType("MaximumSupportedWeight", "IfcMassMeasure") { Definition = "The maximum weight that can be carried by the vibration isolator."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("VibrationTransmissibility", "IfcPositiveRatioMeasure") { Definition = "The vibration transmissibility percentage."} }, new [] { "IfcVibrationIsolator", "IfcVibrationIsolatorType" }); + yield return new PropertySetInfo("Pset_VehicleAvailability", new IPropertyTypeInfo[] { new SingleValuePropertyType("MaintenanceDowntime", "IfcRatioMeasure") { Definition = "Maintenance downtime proportion."}, new SingleValuePropertyType("VehicleAvailability", "IfcRatioMeasure") { Definition = "Vehicle or Plant availability"}, new SingleValuePropertyType("WeatherDowntime", "IfcRatioMeasure") { Definition = "Weather downtime proportion"} }, new [] { "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicle", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType", "IfcVehicleType" }); + yield return new PropertySetInfo("Pset_VesselLineCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("CentreLineToFairlead", "IfcLengthMeasure") { Definition = "Distance from the vessel centreline to the fairlead for the line"}, new SingleValuePropertyType("FairleadToTermination", "IfcLengthMeasure") { Definition = "Distance from the fairlead to the bitt or winch on the vessel where the line terminates"}, new SingleValuePropertyType("HeightAboveMainDeck", "IfcLengthMeasure") { Definition = "Height of the fairlead above the main deck of the vessel"}, new SingleValuePropertyType("LineIdentifier", "IfcIdentifier") { Definition = "Reference ID relative to a design vessel in the project"}, new SingleValuePropertyType("LineStrength", "IfcForceMeasure") { Definition = "Breaking load of the line (note that ultimate stress is not part of any of the material Psets)"}, new SingleValuePropertyType("LineType", "IfcLabel") { Definition = "Mooring line type"}, new SingleValuePropertyType("MidshipToFairLead", "IfcLengthMeasure") { Definition = "Distance from the vessel midship to the fairlead for the line"}, new SingleValuePropertyType("PreTensionAim", "IfcForceMeasure") { Definition = "Line force that the winch is set to maintain (minimum load)"}, new SingleValuePropertyType("TailDiameter", "IfcPositiveLengthMeasure") { Definition = "Diameter of the tail"}, new SingleValuePropertyType("TailLength", "IfcPositiveLengthMeasure") { Definition = "Length of the tail"}, new SingleValuePropertyType("TailStrength", "IfcForceMeasure") { Definition = "Breaking load of the tail (note that ultimate stress is not part of any of the material Psets)"}, new SingleValuePropertyType("TailType", "IfcLabel") { Definition = "Mooring tail type"}, new SingleValuePropertyType("WinchBreakLimit", "IfcForceMeasure") { Definition = "Line force at which the winch starts to release the line (maximum load)"} }, new [] { "IfcMechanicalFastener", "IfcMechanicalFastenerType" }); + yield return new PropertySetInfo("Pset_VibrationIsolatorTypeCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("IsolatorCompressibility", "IfcRatioMeasure") { Definition = "The compressibility of the vibration isolator."}, new SingleValuePropertyType("IsolatorStaticDeflection", "IfcLengthMeasure") { Definition = "Static deflection of the vibration isolator."}, new SingleValuePropertyType("MaximumSupportedWeight", "IfcMassMeasure") { Definition = "The maximum weight that can be carried by the vibration isolator."}, new SingleValuePropertyType("NominalHeight", "IfcPositiveLengthMeasure") { Definition = "The nominal height of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence.\n\nHeight of the vibration isolator before the application of load."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("VibrationTransmissibility", "IfcPositiveRatioMeasure") { Definition = "The vibration transmissibility percentage."} }, new [] { "IfcVibrationIsolator", "IfcVibrationIsolatorType" }); yield return new PropertySetInfo("Pset_VoltageInstrumentTransformer", new IPropertyTypeInfo[] { new SingleValuePropertyType("AccuracyClass", "IfcRatioMeasure") { Definition = "A designation assigned to an instrument transformer the current (or voltage) error and phase displacement of which remain within specified limits under prescribed conditions of use (IEC 321-01-24)."}, new SingleValuePropertyType("AccuracyGrade", "IfcLabel") { Definition = "The grade of accuracy."}, new SingleValuePropertyType("NominalCurrent", "IfcElectricCurrentMeasure") { Definition = "The nominal current that is designed to be measured."}, new SingleValuePropertyType("NominalPower", "IfcPowerMeasure") { Definition = "A conventional value of apparent power determining a value of the rated current that may be carried with rated voltage applied, under specified conditions. ( IEV ref 421-04-04)"}, new SingleValuePropertyType("NumberOfPhases", "IfcCountMeasure") { Definition = "Number of phases that the equipment operates on."}, new SingleValuePropertyType("PrimaryFrequency", "IfcFrequencyMeasure") { Definition = "The frequency that is going to be transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("PrimaryVoltage", "IfcElectricVoltageMeasure") { Definition = "The voltage that is going to be transformed and that runs into the transformer on the primary side."}, new SingleValuePropertyType("RatedVoltage", "IfcElectricVoltageMeasure") { Definition = "The range of allowed voltage that a device is certified to handle. The upper bound of this value is the maximum."}, new SingleValuePropertyType("SecondaryFrequency", "IfcFrequencyMeasure") { Definition = "The frequency that has been transformed and is running out of the transformer on the secondary side."}, new SingleValuePropertyType("SecondaryVoltage", "IfcElectricVoltageMeasure") { Definition = "The voltage that has been transformed and is running out of the transformer on the secondary side."} }, new [] { "IfcFlowInstrument", "IfcFlowInstrument", "IfcFlowInstrumentType", "IfcFlowInstrumentType" }); yield return new PropertySetInfo("Pset_WallCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("Combustible", "IfcBoolean") { Definition = "Indication whether the object is made from combustible material (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Compartmentation", "IfcBoolean") { Definition = "Indication whether the object is designed to serve as a fire compartmentation (TRUE) or not (FALSE)."}, new SingleValuePropertyType("ExtendToStructure", "IfcBoolean") { Definition = "Indicates whether the object extend to the structure above (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("LoadBearing", "IfcBoolean") { Definition = "Indicates whether the object is intended to carry loads (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("SurfaceSpreadOfFlame", "IfcLabel") { Definition = "Indication on how the flames spread around the surface,\nIt is given according to the national building code that governs the fire behaviour for materials."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."} }, new [] { "IfcWall", "IfcWallType" }); yield return new PropertySetInfo("Pset_Warranty", new IPropertyTypeInfo[] { new SingleValuePropertyType("Exclusions", "IfcText") { Definition = "Items, conditions or actions that may be excluded from the warranty or that may cause the warranty to become void."}, new SingleValuePropertyType("IsExtendedWarranty", "IfcBoolean") { Definition = "Indication of whether this is an extended warranty whose duration is greater than that normally assigned to an artefact (=TRUE) or not (= FALSE)."}, new SingleValuePropertyType("PointOfContact", "IfcLabel") { Definition = "The organization that should be contacted for action under the terms of the warranty. Note that the role of the organization (manufacturer, supplier, installer etc.) is determined by the IfcActorRole attribute of IfcOrganization."}, new SingleValuePropertyType("WarrantyContent", "IfcText") { Definition = "The content of the warranty."}, new SingleValuePropertyType("WarrantyIdentifier", "IfcIdentifier") { Definition = "The identifier assigned to a warranty."}, new SingleValuePropertyType("WarrantyPeriod", "IfcDuration") { Definition = "The time duration during which a manufacturer or supplier guarantees or warrants the performance of an artefact."}, new SingleValuePropertyType("WarrantyStartDate", "IfcDate") { Definition = "The date on which the warranty commences."} }, new [] { "IfcElement", "IfcElementType" }); @@ -1375,14 +1378,16 @@ private static IEnumerable GetPropertiesIFC4x3() yield return new PropertySetInfo("Pset_WasteTerminalTypeGullySump", new IPropertyTypeInfo[] { new EnumerationPropertyType("BackInletPatternType", new [] { "1", "12", "123", "1234", "124", "13", "134", "14", "2", "23", "234", "24", "3", "34", "4", "NONE" } ) { Definition = "Identifies the pattern of inlet connections to a gully trap.A gulley trap may have 0,1,2,3 or 4 inlet connections and the pattern of their arrangement may vary. The enumeration makes the convention that an outlet is either vertical or is placed at the bottom (south side) of the gully trap (when viewed in plan). Position 1 is to the left (west), position 2 is to the top (north), position 3 is to the right (east) and position 4 is to the bottom (south).2\n |! |\n1-| |-3\n ! ||\n 4"}, new SingleValuePropertyType("CoverLength", "IfcPositiveLengthMeasure") { Definition = "The length measured along the x-axis in the local coordinate system or the radius (in the case of a circular shape in plan) of the cover of the object."}, new SingleValuePropertyType("CoverWidth", "IfcPositiveLengthMeasure") { Definition = "The length measured along the y-axis in the local coordinate system of the cover of the object."}, new EnumerationPropertyType("GullyType", new [] { "BACKINLET", "VERTICAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of gully from which the type required may be set."}, new SingleValuePropertyType("InletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the inlet connection.\nNote that all inlet connections are assumed to be the same size."}, new SingleValuePropertyType("NominalSumpDepth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the z-axis in the local coordinate system of the sump."}, new SingleValuePropertyType("NominalSumpLength", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the x-axis in the local coordinate system or the radius (in the case of a circular shape in plan) of the sump."}, new SingleValuePropertyType("NominalSumpWidth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the y-axis in the local coordinate system of the sump."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."}, new EnumerationPropertyType("TrapType", new [] { "NONE", "P_TRAP", "Q_TRAP", "S_TRAP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of trap from which the type required may be set."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); yield return new PropertySetInfo("Pset_WasteTerminalTypeGullyTrap", new IPropertyTypeInfo[] { new EnumerationPropertyType("BackInletPatternType", new [] { "1", "12", "123", "1234", "124", "13", "134", "14", "2", "23", "234", "24", "3", "34", "4", "NONE" } ) { Definition = "Identifies the pattern of inlet connections to a gully trap.A gulley trap may have 0,1,2,3 or 4 inlet connections and the pattern of their arrangement may vary. The enumeration makes the convention that an outlet is either vertical or is placed at the bottom (south side) of the gully trap (when viewed in plan). Position 1 is to the left (west), position 2 is to the top (north), position 3 is to the right (east) and position 4 is to the bottom (south).2\n |! |\n1-| |-3\n ! ||\n 4"}, new SingleValuePropertyType("CoverLength", "IfcPositiveLengthMeasure") { Definition = "The length measured along the x-axis in the local coordinate system or the radius (in the case of a circular shape in plan) of the cover of the object."}, new SingleValuePropertyType("CoverWidth", "IfcPositiveLengthMeasure") { Definition = "The length measured along the y-axis in the local coordinate system of the cover of the object."}, new EnumerationPropertyType("GullyType", new [] { "BACKINLET", "VERTICAL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of gully from which the type required may be set."}, new SingleValuePropertyType("HasStrainer", "IfcBoolean") { Definition = "Indicates whether the gully trap has a strainer (= TRUE) or not (= FALSE)."}, new SingleValuePropertyType("InletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the inlet connection.\nNote that all inlet connections are assumed to be the same size."}, new SingleValuePropertyType("NominalBodyDepth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the z-axis of the local coordinate system of the object."}, new SingleValuePropertyType("NominalBodyLength", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the x-axis of the local coordinate system of the object."}, new SingleValuePropertyType("NominalBodyWidth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length, measured along the y-axis of the local coordinate system of the object."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."}, new EnumerationPropertyType("TrapType", new [] { "NONE", "P_TRAP", "Q_TRAP", "S_TRAP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of trap from which the type required may be set."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); yield return new PropertySetInfo("Pset_WasteTerminalTypeRoofDrain", new IPropertyTypeInfo[] { new SingleValuePropertyType("CoverLength", "IfcPositiveLengthMeasure") { Definition = "The length measured along the x-axis in the local coordinate system or the radius (in the case of a circular shape in plan) of the cover of the object."}, new SingleValuePropertyType("CoverWidth", "IfcPositiveLengthMeasure") { Definition = "The length measured along the y-axis in the local coordinate system of the cover of the object."}, new SingleValuePropertyType("NominalBodyDepth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the z-axis of the local coordinate system of the object."}, new SingleValuePropertyType("NominalBodyLength", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length measured along the x-axis of the local coordinate system of the object."}, new SingleValuePropertyType("NominalBodyWidth", "IfcPositiveLengthMeasure") { Definition = "Nominal or quoted length, measured along the y-axis of the local coordinate system of the object."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); - yield return new PropertySetInfo("Pset_WasteTerminalTypeWasteDisposalUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the drain connection inlet to the waste disposal unit."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal or quoted depth of the object measured from the inlet drain connection to the base of the unit."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); + yield return new PropertySetInfo("Pset_WasteTerminalTypeWasteDisposalUnit", new IPropertyTypeInfo[] { new SingleValuePropertyType("DrainConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the drain connection inlet to the waste disposal unit."}, new SingleValuePropertyType("NominalDepth", "IfcNonNegativeLengthMeasure") { Definition = "Nominal Depth of the object"}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); yield return new PropertySetInfo("Pset_WasteTerminalTypeWasteTrap", new IPropertyTypeInfo[] { new SingleValuePropertyType("InletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the inlet connection.\nNote that all inlet connections are assumed to be the same size."}, new SingleValuePropertyType("OutletConnectionSize", "IfcPositiveLengthMeasure") { Definition = "Size of the outlet connection from the object."}, new EnumerationPropertyType("WasteTrapType", new [] { "NONE", "P_TRAP", "Q_TRAP", "S_TRAP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Identifies the predefined types of trap from which the type required may be set."} }, new [] { "IfcWasteTerminal", "IfcWasteTerminalType" }); yield return new PropertySetInfo("Pset_WaterStratumCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AnnualRange", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) annual range in levels."}, new SingleValuePropertyType("AnnualTrend", "IfcLengthMeasure") { Definition = "Indicative (95%-100%) annual rise in level."}, new SingleValuePropertyType("IsFreshwater", "IfcLogical") { Definition = "Indication of freshwater (true,false or unknown)"}, new SingleValuePropertyType("SeicheRange", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range between peaks and troughts of seiche (resonant) waves."}, new SingleValuePropertyType("TidalRange", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range between high and low tide levels."}, new SingleValuePropertyType("WaveRange", "IfcPositiveLengthMeasure") { Definition = "Indicative (95%-100%) range between peaks and troughs of waves"} }, new [] { "IfcGeotechnicalStratum" }); - yield return new PropertySetInfo("Pset_Width", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new EnumerationPropertyType("Side", new [] { "BOTH", "LEFT", "RIGHT" } ) { Definition = "Specifies if the width is measured to the RIGHT or to the LEFT of the curve referenced by the placement, or if the same value is applied to BOTH sides."}, new EnumerationPropertyType("TransitionWidth", new [] { "CONST", "LINEAR" } ) { Definition = "The type of transition of width used between the previous event and this event."} }, new [] { "IfcAnnotation" }); - yield return new PropertySetInfo("Pset_WindowCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE)."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("GlazingAreaFraction", "IfcPositiveRatioMeasure") { Definition = "Fraction of the glazing area relative to the total area of the filling element.\nIt shall be used, if the glazing area is not given separately for all panels within the filling element."}, new SingleValuePropertyType("HasDrive", "IfcBoolean") { Definition = "Indication whether this object has an automatic drive to operate it (TRUE) or no drive (FALSE)"}, new SingleValuePropertyType("HasSillExternal", "IfcBoolean") { Definition = "Indication whether the window opening has an external sill (TRUE) or not (FALSE)."}, new SingleValuePropertyType("HasSillInternal", "IfcBoolean") { Definition = "Indication whether the window opening has an internal sill (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Infiltration", "IfcVolumetricFlowRateMeasure") { Definition = "Infiltration flowrate of outside air for the filler object based on the area of the filler object at a pressure level of 50 Pascals. It shall be used, if the length of all joints is unknown."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalLoadRating", "IfcLabel") { Definition = "Mechanical load rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecurityRating", "IfcLabel") { Definition = "Index based rating system indicating security level.\nIt is giving according to the national building code."}, new SingleValuePropertyType("SmokeStop", "IfcBoolean") { Definition = "Indication whether the object is designed to provide a smoke stop (TRUE) or not (FALSE)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("WaterTightnessRating", "IfcLabel") { Definition = "Water tightness rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcWindow", "IfcWindowType" }); + yield return new PropertySetInfo("Pset_Width", new IPropertyTypeInfo[] { new SingleValuePropertyType("NominalWidth", "IfcNonNegativeLengthMeasure") { Definition = "The nominal overall width of the object. The size information is provided in addition to the shape representation and the geometric parameters used within. In cases of inconsistency between the geometric parameters and the size properties, provided in the attached property set, the geometric parameters take precedence."}, new EnumerationPropertyType("Side", new [] { "BOTH", "LEFT", "RIGHT" } ) { Definition = "Specifies if the width is measured to the RIGHT or to the LEFT of the curve referenced by the placement, or if the same value is applied to BOTH sides."}, new EnumerationPropertyType("TransitionWidth", new [] { "CONST", "LINEAR" } ) { Definition = "The type of transition of width used between the previous event and this event."} }, new [] { "IfcReferent" }); + yield return new PropertySetInfo("Pset_WindowCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("AcousticRating", "IfcLabel") { Definition = "Acoustic rating for this object.\nIt is provided according to the national building code. It indicates the sound transmission resistance of this object by an index ratio (instead of providing full sound absorption values)."}, new SingleValuePropertyType("FireExit", "IfcBoolean") { Definition = "Indication whether this object is designed to serve as an exit in the case of fire (TRUE) or not (FALSE).\n\nHere it defines an exit window in accordance to the national building code."}, new SingleValuePropertyType("FireRating", "IfcLabel") { Definition = "Fire rating for this object. It is given according to the national fire safety classification."}, new SingleValuePropertyType("GlazingAreaFraction", "IfcPositiveRatioMeasure") { Definition = "Fraction of the glazing area relative to the total area of the filling element.\nIt shall be used, if the glazing area is not given separately for all panels within the filling element."}, new SingleValuePropertyType("HasDrive", "IfcBoolean") { Definition = "Indication whether this object has an automatic drive to operate it (TRUE) or no drive (FALSE)"}, new SingleValuePropertyType("HasSillExternal", "IfcBoolean") { Definition = "Indication whether the window opening has an external sill (TRUE) or not (FALSE)."}, new SingleValuePropertyType("HasSillInternal", "IfcBoolean") { Definition = "Indication whether the window opening has an internal sill (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Infiltration", "IfcVolumetricFlowRateMeasure") { Definition = "Infiltration flowrate of outside air for the filler object based on the area of the filler object at a pressure level of 50 Pascals. It shall be used, if the length of all joints is unknown."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("MechanicalLoadRating", "IfcLabel") { Definition = "Mechanical load rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."}, new SingleValuePropertyType("SecurityRating", "IfcLabel") { Definition = "Index based rating system indicating security level.\nIt is giving according to the national building code."}, new SingleValuePropertyType("SmokeStop", "IfcBoolean") { Definition = "Indication whether the object is designed to provide a smoke stop (TRUE) or not (FALSE)."}, new EnumerationPropertyType("Status", new [] { "DEMOLISH", "EXISTING", "NEW", "TEMPORARY", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Status of the element, predominately used in renovation or retrofitting projects. The status can be assigned to as \"New\" - element designed as new addition, \"Existing\" - element exists and remains, \"Demolish\" - element existed but is to be demolished, \"Temporary\" - element will exists only temporary (like a temporary support structure)."}, new SingleValuePropertyType("ThermalTransmittance", "IfcThermalTransmittanceMeasure") { Definition = "Thermal transmittance coefficient (U-Value) of an element, within the direction of the thermal flow (including all materials)."}, new SingleValuePropertyType("WaterTightnessRating", "IfcLabel") { Definition = "Water tightness rating for this object.\nIt is provided according to the national building code."}, new SingleValuePropertyType("WindLoadRating", "IfcLabel") { Definition = "Wind load resistance rating for this object.\nIt is provided according to the national building code."} }, new [] { "IfcWindow", "IfcWindowType" }); + yield return new PropertySetInfo("Pset_WindowLiningProperties", new IPropertyTypeInfo[] { new SingleValuePropertyType("FirstMullionOffset", "IfcNormalisedRatioMeasure") { Definition = "Offset of the mullion centerline, measured along the x-axis of the window placement coordinate system. An offset value = 0.5 indicates that the mullion is positioned in the middle of the window."}, new SingleValuePropertyType("FirstTransomOffset", "IfcNormalisedRatioMeasure") { Definition = "Offset of the transom centerline, measured along the z-axis of the window placement coordinate system. An offset value = 0.5 indicates that the transom is positioned in the middle of the window."}, new SingleValuePropertyType("LiningDepth", "IfcPositiveLengthMeasure") { Definition = "The depth of the lining.\n\nFor a window, it is the depth of the window lining, measured perpendicularly to window elevation plane."}, new SingleValuePropertyType("LiningOffset", "IfcLengthMeasure") { Definition = "Offset of the lining.\n\nFor a window, it is the offset of the window lining, given as distance along the y axis of the local placement (perpendicular to the window plane)."}, new SingleValuePropertyType("LiningThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the lining.\n\nFor a window, it is the thickness of the window lining as explained in the figure below. If LiningThickness value is 0. (zero) it denotes a window without a lining (all other lining parameters shall be set to NIL in this case). If the LiningThickness is NIL it denotes that the value is not available."}, new SingleValuePropertyType("LiningToPanelOffsetX", "IfcLengthMeasure") { Definition = "Offset between the lining and the panel, measured along the x-axis of the local placement.\n\nFor a window, it is the offset between the lining and the window panel. Should be smaller or equal to the LiningThickness."}, new SingleValuePropertyType("LiningToPanelOffsetY", "IfcLengthMeasure") { Definition = "Offset between the lining and the panel, measured along the y-axis of the local placement.\n\nFor a window, it is the offset between the lining and the window panel. Should be smaller or equal to the IfcWindowPanelProperties.PanelThickness."}, new SingleValuePropertyType("MullionThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the mullion.\n\nFor a window, it is the thickness of the mullion (i.e., the vertical separator of window panels within a window), measured parallel to the window elevation plane. The mullion is part of the lining and the mullion depth is assumed to be identical to the lining depth. If the MullionThickness is set to zero (and the MullionOffset set to a positive length), then the window is divided horizontally without a physical divider."}, new SingleValuePropertyType("SecondMullionOffset", "IfcNormalisedRatioMeasure") { Definition = "Offset of the mullion centerline for the second mullion, measured along the x-axis of the window placement co-ordinate system. An offset value = 0.666 indicates that the second mullion is positioned at two/third of the window."}, new SingleValuePropertyType("SecondTransomOffset", "IfcNormalisedRatioMeasure") { Definition = "Offset of the transom centerline for the second transom, measured along the x-axis of the window placement co-ordinate system. An offset value = 0.666 indicates that the second transom is positioned at two/third of the window."}, new SingleValuePropertyType("TransomThickness", "IfcNonNegativeLengthMeasure") { Definition = "Thickness of the transom.\n\nFor a window, it is the thickness of the transom (horizontal separator of window panels within a window), measured parallel to the window elevation plane. The transom is part of the lining and the transom depth is assumed to be identical to the lining depth. If the TransomThickness is set to zero (and the TransomOffset set to a positive length), then the window is divided vertically without a physical divider."} }, new [] { "IfcMember", "IfcWindow", "IfcMemberType", "IfcWindowType" }); + yield return new PropertySetInfo("Pset_WindowPanelProperties", new IPropertyTypeInfo[] { new SingleValuePropertyType("FrameDepth", "IfcPositiveLengthMeasure") { Definition = "The length (or depth) of the frame.\n\nFor a window, it is the depth of panel frame, measured from front face to back face horizontally (i.e. perpendicular to the window elevation plane)."}, new SingleValuePropertyType("FrameThickness", "IfcPositiveLengthMeasure") { Definition = "The thickness of the frame.\n\nFor a window, it is the width of panel frame, measured from inside of panel (at glazing) to outside of panel (at lining), i.e. parallel to the window (elevation) plane."}, new EnumerationPropertyType("OperationType", new [] { "BOTTOMHUNG", "FIXEDCASEMENT", "OTHEROPERATION", "PIVOTHORIZONTAL", "PIVOTVERTICAL", "REMOVABLECASEMENT", "SIDEHUNGLEFTHAND", "SIDEHUNGRIGHTHAND", "SLIDINGHORIZONTAL", "SLIDINGVERTICAL", "TILTANDTURNLEFTHAND", "TILTANDTURNRIGHTHAND", "TOPHUNG", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Type of operations. Also used to assign standard symbolic presentations according to national building standards.\n\nFor a window, it is the type of window panel operations. Also used to assign standard symbolic presentations according to national building standards."}, new EnumerationPropertyType("PanelPosition", new [] { "BOTTOM", "LEFT", "MIDDLE", "RIGHT", "TOP", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Position of the panel.\n\nFor a window, it is the position of the panel within the overall window style."} }, new [] { "IfcPlate", "IfcWindow", "IfcPlateType", "IfcWindowType" }); yield return new PropertySetInfo("Pset_WiredCommunicationPortCommon", new IPropertyTypeInfo[] { new EnumerationPropertyType("CommunicationStandard", new [] { "ETHERNET", "STM_1", "STM_16", "STM_256", "STM_4", "STM_64", "USB", "XDSL", "OTHER", "NOTKNOWN", "UNSET" } ) { Definition = "Indicates the communication standard supported by the physical wired communication port."}, new SingleValuePropertyType("MaximumTransferRate", "IfcIntegerCountRateMeasure") { Definition = "Indicates the transmission rate in bit/s over the wired port."} }, new [] { "IfcDistributionPort" }); yield return new PropertySetInfo("Pset_WorkControlCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("WorkDayDuration", "IfcDuration") { Definition = "The elapsed time within a worktime-based day. For presentation purposes, applications may choose to display IfcTask durations in work days where IfcTaskTime.DurationType=WORKTIME. This value must be less than or equal to 24 hours (an elapsed day); if omitted then 8 hours is assumed."}, new SingleValuePropertyType("WorkFinishTime", "IfcTime") { Definition = "The default time of day a task is scheduled to finish. For presentation purposes, if the finish time of a task matches the WorkFinishTime, then applications may choose to display the date only. Conversely when entering dates without specifying time, applications may automatically append the WorkFinishTime."}, new SingleValuePropertyType("WorkMonthDuration", "IfcDuration") { Definition = "The elapsed time within a worktime-based month. For presentation purposes, applications may choose to display IfcTask durations in work months where IfcTaskTime.DurationType=WORKTIME. This value must be less than or equal to 744 hours (an elapsed month of 31 days); if omitted then 160 hours is assumed."}, new SingleValuePropertyType("WorkStartTime", "IfcTime") { Definition = "The default time of day a task is scheduled to start. For presentation purposes, if the start time of a task matches the WorkStartTime, then applications may choose to display the date only. Conversely when entering dates without specifying time, applications may automatically append the WorkStartTime."}, new SingleValuePropertyType("WorkWeekDuration", "IfcDuration") { Definition = "The elapsed time within a worktime-based week. For presentation purposes, applications may choose to display IfcTask durations in work weeks where IfcTaskTime.DurationType=WORKTIME. This value must be less than or equal to 168 hours (an elapsed week); if omitted then 40 hours is assumed."} }, new [] { "IfcWorkControl" }); - yield return new PropertySetInfo("Pset_ZoneCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according the local building codes, otherwise (FALSE).\nIt is giving according to the requirements of the national building code."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("PubliclyAccessible", "IfcBoolean") { Definition = "Indication whether this space (in case of e.g., a toilet) is designed to serve as a publicly accessible space, e.g., for a public toilet (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcZone" }); + yield return new PropertySetInfo("Pset_ZoneCommon", new IPropertyTypeInfo[] { new SingleValuePropertyType("GrossPlannedArea", "IfcAreaMeasure") { Definition = "Total planned gross area of the spatial structure element. Used for programming the spatial structure element."}, new SingleValuePropertyType("HandicapAccessible", "IfcBoolean") { Definition = "Indication that this object is designed to be accessible by the handicapped. Set to (TRUE) if this object is rated as handicap accessible according to the local building codes, otherwise (FALSE). It is giving according to the requirements of the national building code."}, new SingleValuePropertyType("IsExternal", "IfcBoolean") { Definition = "Indication whether the element is designed for use in the exterior (TRUE) or not (FALSE). If (TRUE) it is an external element and faces the outside of the building."}, new SingleValuePropertyType("NetPlannedArea", "IfcAreaMeasure") { Definition = "Total planned net area of the object. Used for programming the object."}, new SingleValuePropertyType("PubliclyAccessible", "IfcBoolean") { Definition = "Indication whether this space (in case of e.g., a toilet) is designed to serve as a publicly accessible space, e.g., for a public toilet (TRUE) or not (FALSE)."}, new SingleValuePropertyType("Reference", "IfcIdentifier") { Definition = "Reference ID for this specified type in this project (e.g. type 'A-1'), Also referred to as \"construction type\". It should be provided as an alternative to the name of the \"object type\", if the software does not support object types and no classification reference to a recognized classification system used.IFC4.3.0.0 DEPRECATION The Reference property is deprecated and shall no longer be used, use attribute Name on the relating type instead."} }, new [] { "IfcZone" }); } } diff --git a/ids-lib/IfcSchema/SchemaInfo.Schemas.g.cs b/ids-lib/IfcSchema/SchemaInfo.Schemas.g.cs index bf6ebc5..06a9876 100644 --- a/ids-lib/IfcSchema/SchemaInfo.Schemas.g.cs +++ b/ids-lib/IfcSchema/SchemaInfo.Schemas.g.cs @@ -1,4 +1,4 @@ -// generated code via ids-lib.codegen using Xbim.Essentials 6.0.0.443, any changes to this file will be lost at next regeneration +// generated code via ids-lib.codegen using Xbim.Essentials 6.0.445.0, any changes to this file will be lost at next regeneration using System.Linq; diff --git a/ids-lib/LibraryInformation.cs b/ids-lib/LibraryInformation.cs index 5286cd1..6b2b843 100644 --- a/ids-lib/LibraryInformation.cs +++ b/ids-lib/LibraryInformation.cs @@ -26,5 +26,5 @@ public static class LibraryInformation /// /// Static field with hardcoded DLL version number. /// - public static string AssemblyVersion => "1.0.64"; + public static string AssemblyVersion => "1.0.65"; } diff --git a/ids-lib/ids-lib.csproj b/ids-lib/ids-lib.csproj index e24e219..7c907db 100644 --- a/ids-lib/ids-lib.csproj +++ b/ids-lib/ids-lib.csproj @@ -20,7 +20,7 @@ First implementation. README.md - 1.0.64 + 1.0.65 $(AssemblyVersion) $(AssemblyVersion) true diff --git a/ids-tool.tests/IdsSchemaTests.cs b/ids-tool.tests/IdsSchemaTests.cs index c5dfe43..1755bfc 100644 --- a/ids-tool.tests/IdsSchemaTests.cs +++ b/ids-tool.tests/IdsSchemaTests.cs @@ -100,6 +100,7 @@ public async void BuildingSmartWebServerShouldReturnSchemaCorrectly(string url) var c = new HttpClient(); var t = await c.GetAsync(url); + var tp = t.Content.Headers.ContentType; Skip.If(tp is null, "contentype is null"); Skip.If(!acceptable.Contains(tp.ToString()), $"contentype is `{tp}` is not in the acceptable range."); diff --git a/ids-tool.tests/IfcPredefinedPropertiesTests.cs b/ids-tool.tests/IfcPredefinedPropertiesTests.cs index c842de0..cc69e4e 100644 --- a/ids-tool.tests/IfcPredefinedPropertiesTests.cs +++ b/ids-tool.tests/IfcPredefinedPropertiesTests.cs @@ -94,7 +94,8 @@ public void IfcPropertyNameCoherenceAcrossSchemas() unexpectedMeasureTypes++; } } - unexpectedMeasureTypes.Should().Be(516, "these are the acknowledged variations"); + var expectedCount = 526; + unexpectedMeasureTypes.Should().Be(expectedCount, $"{expectedCount} is the count of acknowledged variations"); } } } diff --git a/ids-tool.tests/IssueFiles/Issue 25 - Pset_ConstructionOccurence.ids b/ids-tool.tests/IssueFiles/Issue 25 - Pset_ConstructionOccurence.ids new file mode 100644 index 0000000..cad9c57 --- /dev/null +++ b/ids-tool.tests/IssueFiles/Issue 25 - Pset_ConstructionOccurence.ids @@ -0,0 +1,32 @@ + + + + PilotTest + + + + + + + IFCPILE + + + + + + + Pset_ConstructionOccurence + + + ModelNumber + + + + + + + + + + + \ No newline at end of file diff --git a/ids-tool.tests/IssueTests.cs b/ids-tool.tests/IssueTests.cs index 927f5c0..22ea5b8 100644 --- a/ids-tool.tests/IssueTests.cs +++ b/ids-tool.tests/IssueTests.cs @@ -38,5 +38,12 @@ public void Issue11_IfcLogicalIsValidDatatype() var f = new FileInfo("IssueFiles/Issue 11 - IfcLogical.ids"); LoggerAndAuditHelpers.FullAudit(f, XunitOutputHelper, IdsLib.Audit.Status.Ok); } + + [Fact] + public void Issue11_IfcPropertySetFound() + { + var f = new FileInfo("IssueFiles/Issue 25 - Pset_ConstructionOccurence.ids"); + LoggerAndAuditHelpers.FullAudit(f, XunitOutputHelper, IdsLib.Audit.Status.Ok); + } } } diff --git a/ids-tool.tests/ids-tool.tests.csproj b/ids-tool.tests/ids-tool.tests.csproj index f9fbb20..a3f14c2 100644 --- a/ids-tool.tests/ids-tool.tests.csproj +++ b/ids-tool.tests/ids-tool.tests.csproj @@ -12,7 +12,7 @@ - + @@ -171,6 +171,9 @@ PreserveNewest + + PreserveNewest + PreserveNewest @@ -188,10 +191,6 @@ - - - - \ No newline at end of file diff --git a/ids-tool/ids-tool.csproj b/ids-tool/ids-tool.csproj index a0da37e..b723d9e 100644 --- a/ids-tool/ids-tool.csproj +++ b/ids-tool/ids-tool.csproj @@ -16,7 +16,7 @@ icon.png IDS, buildingSmart - 1.0.64 + 1.0.65 $(AssemblyVersion) $(AssemblyVersion) https://github.com/buildingSMART/IDS-Audit-tool.git