/////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2002-2025, Open Design Alliance (the "Alliance"). // All rights reserved. // // This software and its documentation and related materials are owned by // the Alliance. The software may only be incorporated into application // programs owned by members of the Alliance, subject to a signed // Membership Agreement and Supplemental Software License Agreement with the // Alliance. The structure and organization of this software are the valuable // trade secrets of the Alliance and its suppliers. The software is also // protected by copyright law and international treaty provisions. Application // programs incorporating this software must include the following statement // with their copyright notices: // // This application incorporates Open Design Alliance software pursuant to a license // agreement with Open Design Alliance. // Open Design Alliance Copyright (C) 2002-2025 by Open Design Alliance. // All rights reserved. // // By use of this software, its documentation or related materials, you // acknowledge and accept the above terms. /////////////////////////////////////////////////////////////////////////////// // This file is generated automatically. #ifndef _IFC2X_FINAL_IFCFLUIDFLOWPROPERTIES_AUTO_IMPL_H #define _IFC2X_FINAL_IFCFLUIDFLOWPROPERTIES_AUTO_IMPL_H #include "IfcPropertySetDefinitionAutoImpl.h" #include "IfcMaterialAutoImpl.h" #include "TD_PackPush.h" /** \details The namespace contains schema-dependent classes, definitions and sub routines for work with IFC2X_FINAL express schema definitions. */ namespace OdIfc2x_final { /** \details Common definition to capture the basic flow properties of a fluid typically used within a flow distribution system. IfcFluidFlowProperties is a statically defined property set and should be attached to the instance(s) of the IfcDistributionPort through the IfcRelDefinesByProperties relationship. Instances of the IfcFluidFlowProperties can be shared when two ports are joined together via the IfcRelConnectsPorts relationship. */ class IFC2X_FINAL_EXPORT IfcFluidFlowProperties : public IfcPropertySetDefinition { //DOM-IGNORE-BEGIN OD_EXP_DECLARE_MEMBERS(OdIfc2x_final::IfcFluidFlowProperties); //DOM-IGNORE-END public: // // OdDAI early binding accessors // /** \details Returns the value of MaximumFlowRate attribute. This attribute represents the maximum possible flowrate through all inlets. \returns Returns the value of MaximumFlowRate attribute. */ double getMaximumFlowRate() const; /** \details Sets the value of MaximumFlowRate attribute. This attribute represents the maximum possible flowrate through all inlets. \param MaximumFlowRate [in] MaximumFlowRate attribute to set. */ void setMaximumFlowRate(double MaximumFlowRate); /** \details Returns the value of DesignFlowrate attribute. This attribute represents the design or intended flowrate through all inlets. \returns Returns the value of DesignFlowrate attribute. */ double getDesignFlowrate() const; /** \details Sets the value of DesignFlowrate attribute. This attribute represents the design or intended flowrate through all inlets. \param DesignFlowrate [in] DesignFlowrate attribute to set. */ void setDesignFlowrate(double DesignFlowrate); /** \details Returns the value of MinimumFlowrate attribute. This attribute represents the minimum flowrate through all the inlets. \returns Returns the value of MinimumFlowrate attribute. */ double getMinimumFlowrate() const; /** \details Sets the value of MinimumFlowrate attribute. This attribute represents the minimum flowrate through all the inlets. \param MinimumFlowrate [in] MinimumFlowrate attribute to set. */ void setMinimumFlowrate(double MinimumFlowrate); /** \details Returns the value of PressureLoss attribute. This attribute represents the pressure loss at the DesignFlowrate. \returns Returns the value of PressureLoss attribute. */ double getPressureLoss() const; /** \details Sets the value of PressureLoss attribute. This attribute represents the pressure loss at the DesignFlowrate. \param PressureLoss [in] PressureLoss attribute to set. */ void setPressureLoss(double PressureLoss); /** \details Returns the value of WorkingPressure attribute. This attribute represents the working pressure, or pressure that is exerted on the inlets. \returns Returns the value of WorkingPressure attribute. */ double getWorkingPressure() const; /** \details Sets the value of WorkingPressure attribute. This attribute represents the working pressure, or pressure that is exerted on the inlets. \param WorkingPressure [in] WorkingPressure attribute to set. */ void setWorkingPressure(double WorkingPressure); /** \details Returns the value of PressureRating attribute. This attribute represents the design pressure rating, or maximum pressure that this device can be subjected to. \returns Returns the value of PressureRating attribute. */ double getPressureRating() const; /** \details Sets the value of PressureRating attribute. This attribute represents the design pressure rating, or maximum pressure that this device can be subjected to. \param PressureRating [in] PressureRating attribute to set. */ void setPressureRating(double PressureRating); const OdDAIObjectId& getFluid() const; void setFluid(const OdDAIObjectId& Fluid); /** \details Returns the value of DesignVelocity attribute. This attribute represents the velocity of the fluid at the DesignFlowrate. \returns Returns the value of DesignVelocity attribute. */ double getDesignVelocity() const; /** \details Sets the value of DesignVelocity attribute. This attribute represents the velocity of the fluid at the DesignFlowrate. \param DesignVelocity [in] DesignVelocity attribute to set. */ void setDesignVelocity(double DesignVelocity); /** \details Gets the value of DesignTemperature attribute. This attribute represents the list of design temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \param DesignTemperature [out] Receives the DesignTemperature attribute. */ void getDesignTemperature(OdArray& DesignTemperature) const; /** \details Returns the value of DesignTemperature attribute. This attribute represents the list of design temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \returns Returns the value of DesignTemperature attribute. */ OdDAI::ListOfDouble& designTemperature(); /** \details Gets the value of MaximumTemperature attribute. This attribute represents the maximum temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \param MaximumTemperature [out] Receives the MaximumTemperature attribute. */ void getMaximumTemperature(OdArray& MaximumTemperature) const; /** \details Returns the value of MaximumTemperature attribute. This attribute represents the maximum temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \returns Returns the value of MaximumTemperature attribute. */ OdDAI::ListOfDouble& maximumTemperature(); /** \details Gets the value of MinimumTemperature attribute. This attribute represents the minimum temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \param MinimumTemperature [out] Receives the MinimumTemperature attribute. */ void getMinimumTemperature(OdArray& MinimumTemperature) const; /** \details Returns the value of MinimumTemperature attribute. This attribute represents the minimum temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \returns Returns the value of MinimumTemperature attribute. */ OdDAI::ListOfDouble& minimumTemperature(); /** \details Gets the value of WorkingTemperature attribute. This attribute represents the working or actual temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \param WorkingTemperature [out] Receives the WorkingTemperature attribute. */ void getWorkingTemperature(OdArray& WorkingTemperature) const; /** \details Returns the value of WorkingTemperature attribute. This attribute represents the working or actual temperature of the fluid; for air the list consists of dry bulb temperature followed by wet bulb temperature. \returns Returns the value of WorkingTemperature attribute. */ OdDAI::ListOfDouble& workingTemperature(); /** \details Returns the value of WorkingQuality attribute. This attribute represents the ratio of vapor to liquid. \returns Returns the value of WorkingQuality attribute. */ double getWorkingQuality() const; /** \details Sets the value of WorkingQuality attribute. This attribute represents the ratio of vapor to liquid. \param WorkingQuality [in] WorkingQuality attribute to set. */ void setWorkingQuality(double WorkingQuality); public: /** \details Default constructor for the IfcFluidFlowProperties class. */ IfcFluidFlowProperties(); /** \details Reads object's data from the specified filer. \param rdFiler [in] Pointer to a filer from which to read the data. \returns A value of OdResult type that contains the result of the method execution. */ virtual OdResult inFields(OdDAI::OdSpfFilerBase* rdFiler) override; /** \details Writes object's data the the specified filer. \param wrFiler [in] Pointer to a filer to which to write the data. \returns A value of OdResult type that contains the result of the method execution. */ virtual OdResult outFields(OdDAI::OdSpfFilerBase* wrFiler) override; /** \details Returns a type of a class instance. \returns Pointer to the OdDAI::Entity type that determines an entity definition within a schema. */ virtual OdDAI::Entity* getInstanceType() const override; /** \details Returns an attribute value for the specified attribute name. \param attrName [in] Name of an attribute to query. \returns OdRxValue object that represents a generic variant type value. */ virtual OdRxValue getAttr(const char * attrName) const override; /** \details Resets a value for the specified attribute. \param explicitAttrName [in] Explicit name of the attribute to reset. */ virtual void unsetAttr(const char * explicitAttrName) override; /** \details Checks whether the specified attribute is set. \param explicitAttrName [in] Explicit name of the attribute to test. \returns true if the specified attribute is set, false otherwise. */ virtual bool testAttr(const char * explicitAttrName) const override; /** \details Sets the specified attribute with a given value. \param explicitAttrName [in] Explicit name of the attribute to set. \param val [in] Value to set. \returns true if the value is successfully set for the specified attribute, false otherwise. */ virtual bool putAttr(const char * explicitAttrName, const OdRxValue &val) override; /** \details Checks whether the specified instance is the object derived from or belongs to this class. \param entityType [in] Entity to check. \returns true if the specified instance is the object derived from or belongs to this class, false otherwise. */ virtual bool isKindOf(OdIfc::OdIfcEntityType entityType) const override; /** \details Returns the type of this entity. \returns A value of the OdIfc::OdIfcEntityType type that represents type of this entity. */ virtual OdIfc::OdIfcEntityType type() const override; /** \details Returns an attribute value for the specified attribute definition. \param attrDef [in] Attribute definition to query. \returns OdRxValue object that represents a generic variant type value. */ virtual OdRxValue getAttr(const OdIfc::OdIfcAttribute attrDef) const override; /** \details Resets a value for the specified attribute. \param explicitAttrDef [in] Explicit definition that represents an attribute to reset. */ virtual void unsetAttr(const OdIfc::OdIfcAttribute explicitAttrDef) override; /** \details Checks whether the specified attribute is set. \param explicitAttrDef [in] Attribute definition to test. \returns true if the specified attribute is set, false otherwise. */ virtual bool testAttr(const OdIfc::OdIfcAttribute explicitAttrDef) const override; /** \details Sets the specified attribute with a given value. \param explicitAttrDef [in] Explicit attribute definition to set. \param val [in] Value to set. \returns true if the value is successfully set for the specified attribute, false otherwise. */ virtual bool putAttr(const OdIfc::OdIfcAttribute explicitAttrDef, const OdRxValue &val) override; protected: // Fields declaration: double m_MaximumFlowRate; // IfcVolumetricFlowRateMeasure [optional] double m_DesignFlowrate; // IfcVolumetricFlowRateMeasure [optional] double m_MinimumFlowrate; // IfcVolumetricFlowRateMeasure [optional] double m_PressureLoss; // IfcPressureMeasure [optional] double m_WorkingPressure; // IfcPressureMeasure [optional] double m_PressureRating; // IfcPressureMeasure [optional] OdDAIObjectId m_Fluid; // IfcMaterial double m_DesignVelocity; // IfcLinearVelocityMeasure [optional] OdDAI::ListOfDouble m_DesignTemperature; // LIST [1:2] of IfcThermodynamicTemperatureMeasure [optional] OdDAI::ListOfDouble m_MaximumTemperature; // LIST [1:2] of IfcThermodynamicTemperatureMeasure [optional] OdDAI::ListOfDouble m_MinimumTemperature; // LIST [1:2] of IfcThermodynamicTemperatureMeasure [optional] OdDAI::ListOfDouble m_WorkingTemperature; // LIST [1:2] of IfcThermodynamicTemperatureMeasure [optional] double m_WorkingQuality; // IfcRatioMeasure [optional] }; /** \details A data type that represents a smart pointer to a IfcFluidFlowProperties object. */ typedef OdSmartPtr IfcFluidFlowPropertiesPtr; } // namespace #include "TD_PackPop.h" #endif // _IFC2X_FINAL_IFCFLUIDFLOWPROPERTIES_AUTO_IMPL_H