/////////////////////////////////////////////////////////////////////////////// // 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 _IFC4X4_IFCRELSPACEBOUNDARY2NDLEVEL_AUTO_IMPL_H #define _IFC4X4_IFCRELSPACEBOUNDARY2NDLEVEL_AUTO_IMPL_H #include "IfcRelSpaceBoundary1stLevelAutoImpl.h" #include "TD_PackPush.h" /** \details The namespace contains schema-dependent classes, definitions and sub routines for work with IFC4X4 express schema definitions. */ namespace OdIfc4x4 { /** \details The 2nd level space boundary defines the physical or virtual delimiter of a space by the relationship IfcRelSpaceBoundary2ndLevel to the surrounding elements. 2nd level space boundaries are characterized by: * 2nd level space boundaries still represent building elements that bound the space, but are more granular in that they are subdivided in any of the following cases: * Differences in materials and/or material assemblies (for example, a wainscot or paneling on the lower portion of a wall). * Differences in spaces or zones on the other side of the building element (or virtual boundary) represented by the space boundary (for example, two different spaces on the other side of a wall) * 2nd level space boundaries are differentiated in two ways: virtual or physical and internal or external, whereby any space boundary that is both internal and external has to be split into segments. * 2nd level space boundaries represent both sides of a heat transfer surface separated by the thickness of the building element. They can be further differentiated in: * Type 2a that occurs when there is a space on the opposite side of the building element providing the space boundary. * Type 2b occurs if there is a building element on the opposite side of the building element providing the space boundary. * The connection geometry of 2nd level space boundaries is restricted to planar surfaces only. This means that curved surfaces must be segmented. 2nd level space boundaries define the heat transfer surfaces on both sides of building elements that separate spaces. The generation of 2nd level space boundaries has to take building elements and spaces on the other side into account. - Example - The following picture shows the attribute ParentBoundary with inverse InnerBoundaries that is provided to link the space boundaries of doors, windows, and openings to the parent boundary, such as of a wall or slab. The attribute CorrespondingBoundary with inverse Corresponds is provided to link the pair of space boundaries on the opposite sides of the building element. \remarks 2nd level space boundaries are used by many analysis packages that require a surface view of the building that can be transformed into the various simple topological models. Examples of such analysis packages include: energy analysis, lighting analysis, fluid dynamics. */ class IFC4X4_EXPORT IfcRelSpaceBoundary2ndLevel : public IfcRelSpaceBoundary1stLevel { //DOM-IGNORE-BEGIN OD_EXP_DECLARE_MEMBERS(OdIfc4x4::IfcRelSpaceBoundary2ndLevel); //DOM-IGNORE-END public: // // OdDAI early binding accessors // /** \details Returns the value of CorrespondingBoundary attribute. This attribute represents reference to the other space boundary of the pair of two space boundaries on either side of a space separating thermal boundary element. \returns Returns the value of CorrespondingBoundary attribute. */ const OdDAIObjectId& getCorrespondingBoundary() const; /** \details Sets the value of CorrespondingBoundary attribute. This attribute represents reference to the other space boundary of the pair of two space boundaries on either side of a space separating thermal boundary element. \param CorrespondingBoundary [in] Corresponding boundary to set. */ void setCorrespondingBoundary(const OdDAIObjectId& CorrespondingBoundary); /** \details Returns the value of Corresponds attribute. This attribute represents reference to the other space boundary of the pair of two space boundaries on either side of a space separating thermal boundary element. \param Corresponds [out] Receives the value of Corresponds attribute. */ void getInvCorresponds(OdDAIObjectIds& Corresponds) const; public: /** \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 Sets the object ID of this instance to inverse attributes of related instances according to schema specification of inverse attributes. */ virtual void setInverseCounterParts() 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 Early-bound version of instances comparison. \param pOther [in] Other application instance. \param ordering [out] Receives the ordering (comparison) status. \returns true if comparison was performed, false if method has no implementation, so late-bound version could be applied. \remarks If the method returns true, the ordering parameter can receive one of the following statuses: Name Value Description _kLessThan_ -1 This object < Other Object. _kEqual_ 0 This object = Other Object. _kGreaterThan_ 1 This object > Other Object. _kNotOrderable_ 2 This class is not orderable.
*/ virtual bool comparedToEarlyImpl(const OdDAI::ApplicationInstance *pOther, OdRx::Ordering &ordering) 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: OdDAIObjectId m_CorrespondingBoundary; // IfcRelSpaceBoundary2ndLevel [optional] }; /** \details A data type that represents a smart pointer to a IfcRelSpaceBoundary2ndLevel object. */ typedef OdSmartPtr IfcRelSpaceBoundary2ndLevelPtr; } // namespace #include "TD_PackPop.h" #endif // _IFC4X4_IFCRELSPACEBOUNDARY2NDLEVEL_AUTO_IMPL_H