OdIfc4x2::IfcWall Class Reference

#include <IfcWallAutoImpl.h>

Inheritance diagram for OdIfc4x2::IfcWall:

Public Member Functions
IfcWallTypeEnum	getPredefinedType () const
void	setPredefinedType (IfcWallTypeEnum PredefinedType)
	IfcWall ()
virtual OdResult	inFields (OdDAI::OdSpfFilerBase *rdFiler) override
virtual OdResult	outFields (OdDAI::OdSpfFilerBase *wrFiler) override
virtual OdDAI::Entity *	getInstanceType () const override
virtual OdRxValue	getAttr (const char *attrName) const override
virtual void	unsetAttr (const char *explicitAttrName) override
virtual bool	testAttr (const char *explicitAttrName) const override
virtual bool	putAttr (const char *explicitAttrName, const OdRxValue &val) override
virtual bool	isKindOf (OdIfc::OdIfcEntityType entityType) const override
virtual OdIfc::OdIfcEntityType	type () const override
virtual OdRxValue	getAttr (const OdIfc::OdIfcAttribute attrDef) const override
virtual void	unsetAttr (const OdIfc::OdIfcAttribute explicitAttrDef) override
virtual bool	testAttr (const OdIfc::OdIfcAttribute explicitAttrDef) const override
virtual bool	putAttr (const OdIfc::OdIfcAttribute explicitAttrDef, const OdRxValue &val) override
Public Member Functions inherited from OdIfc4x2::IfcElement
const OdAnsiString &	getTag () const
void	setTag (const OdAnsiString &Tag)
void	getInvFillsVoids (OdDAIObjectIds &FillsVoids) const
void	getInvConnectedTo (OdDAIObjectIds &ConnectedTo) const
void	getInvIsInterferedByElements (OdDAIObjectIds &IsInterferedByElements) const
void	getInvInterferesElements (OdDAIObjectIds &InterferesElements) const
void	getInvHasProjections (OdDAIObjectIds &HasProjections) const
void	getInvReferencedInStructures (OdDAIObjectIds &ReferencedInStructures) const
void	getInvHasOpenings (OdDAIObjectIds &HasOpenings) const
void	getInvIsConnectionRealization (OdDAIObjectIds &IsConnectionRealization) const
void	getInvProvidesBoundaries (OdDAIObjectIds &ProvidesBoundaries) const
void	getInvConnectedFrom (OdDAIObjectIds &ConnectedFrom) const
void	getInvContainedInStructure (OdDAIObjectIds &ContainedInStructure) const
void	getInvHasCoverings (OdDAIObjectIds &HasCoverings) const
	IfcElement ()
Public Member Functions inherited from OdIfc4x2::IfcProduct
const OdDAIObjectId &	getObjectPlacement () const
void	setObjectPlacement (const OdDAIObjectId &ObjectPlacement)
const OdDAIObjectId &	getRepresentation () const
void	setRepresentation (const OdDAIObjectId &Representation)
void	getInvReferencedBy (OdDAIObjectIds &ReferencedBy) const
void	getInvPositionedRelativeTo (OdDAIObjectIds &PositionedRelativeTo) const
virtual void	setInverseCounterParts () override
Public Member Functions inherited from OdIfc4x2::IfcObject
const OdAnsiString &	getObjectType () const
void	setObjectType (const OdAnsiString &ObjectType)
void	getInvIsDeclaredBy (OdDAIObjectIds &IsDeclaredBy) const
void	getInvDeclares (OdDAIObjectIds &Declares) const
void	getInvIsTypedBy (OdDAIObjectIds &IsTypedBy) const
void	getInvIsDefinedBy (OdDAIObjectIds &IsDefinedBy) const
	IfcObject ()
Public Member Functions inherited from OdIfc4x2::IfcObjectDefinition
void	getInvHasAssignments (OdDAIObjectIds &HasAssignments) const
void	getInvNests (OdDAIObjectIds &Nests) const
void	getInvIsNestedBy (OdDAIObjectIds &IsNestedBy) const
void	getInvHasContext (OdDAIObjectIds &HasContext) const
void	getInvIsDecomposedBy (OdDAIObjectIds &IsDecomposedBy) const
void	getInvDecomposes (OdDAIObjectIds &Decomposes) const
void	getInvHasAssociations (OdDAIObjectIds &HasAssociations) const
Public Member Functions inherited from OdIfc4x2::IfcRoot
OdDAI::CompressedGUID	getGlobalId () const
void	setGlobalId (OdDAI::CompressedGUID GlobalId)
const OdDAIObjectId &	getOwnerHistory () const
void	setOwnerHistory (const OdDAIObjectId &OwnerHistory)
const OdAnsiString &	getName () const
void	setName (const OdAnsiString &Name)
const OdAnsiString &	getDescription () const
void	setDescription (const OdAnsiString &Description)
	IfcRoot ()
Public Member Functions inherited from OdIfc4x2::OdIfc4x2Instance
void	setInverseCounterParts () override
Public Member Functions inherited from OdIfc::OdIfcInstance
	ODRX_DECLARE_MEMBERS (OdIfcInstance)
	OdIfcInstance ()
	~OdIfcInstance ()
bool	isInstanceOf (OdIfcEntityType entityType) const
IfcOpResult	resolved ()
void	resolve (IfcOpResult resolved, void *resPtr)
void	unresolve ()
virtual void	setGsNode (OdGsCache *pGsNode)
virtual OdGsCache *	gsNode () const
virtual OdUInt32	subSetAttributes (OdGiDrawableTraits *traits) const
virtual bool	subWorldDraw (OdGiWorldDraw *wd) const
virtual OdDbStub *	ownerId () const

Protected Attributes
OdDAI::Enum	m_PredefinedType
Protected Attributes inherited from OdIfc4x2::IfcElement
OdAnsiString	m_Tag
Protected Attributes inherited from OdIfc4x2::IfcProduct
OdDAIObjectId	m_ObjectPlacement
OdDAIObjectId	m_Representation
Protected Attributes inherited from OdIfc4x2::IfcObject
OdAnsiString	m_ObjectType
Protected Attributes inherited from OdIfc4x2::IfcRoot
OdDAI::CompressedGUID	m_GlobalId
OdDAIObjectId	m_OwnerHistory
OdAnsiString	m_Name
OdAnsiString	m_Description
Protected Attributes inherited from OdIfc::OdIfcInstance
void *	m_resPtr
IfcOpResult	m_resolved

Additional Inherited Members
Static Public Member Functions inherited from OdIfc::OdIfcInstance
static const OdGePoint3d *	asPoint3d (const OdIfcInstance *inst)
static const OdGePoint2d *	asPoint2d (const OdIfcInstance *inst)
static const OdGeVector3d *	asVector3d (const OdIfcInstance *inst)
static const OdGeVector2d *	asVector2d (const OdIfcInstance *inst)
static const OdGeMatrix2d *	asMatrix2d (const OdIfcInstance *inst)
static const OdGeMatrix3d *	asMatrix3d (const OdIfcInstance *inst)
static OdIfcCompoundPtr	asCompound (OdSmartPtr< OdIfcInstance > inst)
static const OdCmEntityColor *	asRgbColor (const OdIfcInstance *inst)

Detailed Description

The wall represents a vertical construction that can bound or subdivide spaces. Wall are usually vertical, or nearly vertical, planar elements, often designed to bear structural loads. A wall is however not required to be load bearing.

There are two main representations for all occurrences: IfcWall with IfcMaterialLayerSetUsage is used for all occurrences of walls, that have a non-changing thickness along the wall path and where the thickness parameter can be fully described by a material layer set. These walls are always represented geometrically by an 'Axis' and a 'SweptSolid' shape representation (or by a 'Clipping' geometry based on 'SweptSolid'), if a 3D geometric representation is assigned IfcWall without IfcMaterialLayerSetUsage is used for all other occurrences of wall, particularly for walls with changing thickness along the wall path (e.g. polygonal walls), or walls with a non-rectangular cross sections (e.g. L-shaped retaining walls), and walls having an extrusion axis that is unequal to the global Z axis of the project (i.e. non-vertical walls), or walls having only 'Brep', or 'SurfaceModel' geometry, or if a more parametric representation is not intended

• Axis 2D Geometry - The wall axis is represented by a two-dimensional open curve within a particular shape representation. The 'Axis' shape representation is only used to locate the material layer set along the axis, if the IfcMaterialLayerSetUsage is applied to the IfcWall. In this case, the wall axis is used to apply the material layer set usage parameter to the wall geometry.

The image below illustrates an axis representation for a straight wall. In case of a straight wall, the set of items includes a single geometric representation item of type IfcPolyline or IfcTrimmedCurve with the BasisCurve being an IfcLine. The IfcPolyline or IfcTrimmedCurve is parallel (here in a special case co-linear) to the x-axis of the object coordinate system. The direction is identical to the direction of the x-axis.

<IMAGE ifcwallstandard_straigthwall_01-layout1>

The image below illustrates an axis representation for a curved wall. In case of a curved wall, the set of items includes a single geometric representation item of type IfcTrimmedCurve. The curve has a BasisCurve of type IfcCircle. The tangent of the IfcTrimmedCurve is parallel at start to the x-axis of the object coordinate system. The direction is identical to the direction of the x-axis.

<IMAGE ifcwallstandard_curvedwall_01-layout1>

• Body Clipping Geometry - The following additional constraints apply to the 'SweptSolid' representation, when an IfcMaterialLayerSetUsage is assigned to the IfcSlab: Solid: IfcExtrudedAreaSolid is required Profile: IfcArbitraryClosedProfileDef and IfcRectangleProfileDef is supported Extrusion: All extrusion directions is supported Boolean result: The IfcBooleanClippingResult is supported, allowing for Boolean differences between the swept solid (here IfcExtrudedAreaSolid) and one or several IfcHalfSpaceSolid (or subtypes)

The image below illustrates a clipping for a straight wall using an IfcPolygonalBoundedHalfSpace as SecondOperand in the IfcBooleanClippingResult.

<IMAGE ifcwallstandard_straigthwall_03-layout1>

The image below illustrates a clipping for a curved wall using an IfcHalfSpaceSolid as SecondOperand in the IfcBooleanClippingResult.

<IMAGE ifcwallstandard_curvedwall_03-layout1>

• Body SweptSolid Geometry - The following additional constraints apply to the 'SweptSolid' representation: Solid: IfcExtrudedAreaSolid is required Profile: IfcArbitraryClosedProfileDef and IfcRectangleProfileDef is supported Extrusion: All extrusion directions is supported

The image below illustrates a body representation for a straight wall. In case of a straight wall, the two sides of the profile are parallel to the wall axis, that is, the wall has a single unchanged thickness.

<IMAGE ifcwallstandard_straigthwall_02-layout1>

The image below illustrates a body representation for a curved wall. In case of a curved wall, the two sides of the profile are parallel (with defined offset) to the wall axis, that is, the wall has a single unchanged thickness.

<IMAGE ifcwallstandard_curvedwall_02-layout1>

• Element Decomposition - A wall can be decomposed into parts such as framing and panels on each side. For efficiency, each part can reuse geometry using the mapped geometry concept. This concept can be applied to the following resources: IfcMember - Studs, posts and similar elements IfcMechanicalFastener - Fasteners that can be used to connect elements together with IfcRelConnectsWithRealizingElements IfcElementAssembly - Frame containing studs, tracks, and possibly insulation IfcBuildingElementPart - Panels on each side such as gypsum (drywall) or cement board (tile backing) with fasteners
• Element Voiding - The image below openings within the composite wall are directly assigned to IfcWall using IfcRelVoidsElement pointing to IfcOpeningElement and apply to all aggregated parts. If individual parts have cutting and other voiding features, then the decomposed parts have a separate voiding relationship IfcRelVoidsElement pointing to IfcVoidingFeature.

<IMAGE ifcwall_element_voiding>

• Material Layer Set Usage - The image below illustrates assignment of IfcMaterialLayerSetUsage and IfcMaterialLayerSet to the IfcWallType and the IfcWall occurrence.

<IMAGE ifcwall_materialusage-01>

• Material Set - This concept can be applied to the following resources: LoadBearing Insulation
• Object Typing - This concept can be applied to the following resources: IfcWallType
• Path Connectivity - This concept can be applied to the following resources: IfcWall - Walls with equal or lower priority are connected at RelatedElement
• Product Assignment - This concept can be applied to the following resources: IfcStructuralSurfaceMember - an idealized structural member corresponding to the wall IfcTask - A task for operating on the wall
• Property Sets for Objects - This concept can be applied to the following resources: Pset_ConcreteElementGeneral Pset_PrecastConcreteElementFabrication Pset_PrecastConcreteElementGeneral Pset_RoadGuardElement (only applies to PARAPET) Pset_ReinforcementBarPitchOfWall Pset_WallCommon
• Quantity Sets - This concept can be applied to the following resources: Qto_WallBaseQuantities
• Spatial Containment - The IfcWall, as any subtype of IfcBuildingElement, can participate alternatively in one of the two different containment relationships: the Spatial Containment (defined here) the Element Composition
• Surface Geometry - The 'Surface' can be used to define a surface model of the building (e.g. for analytical purposes, or for reduced Level of Detail representation).

Definition at line 168 of file Ifc4x2/IfcWallAutoImpl.h.

Constructor & Destructor Documentation

IfcWall()

OdIfc4x2::IfcWall::IfcWall

(

)

Default constructor for the IfcWall class.

Member Function Documentation

getAttr() [1/2]

virtual OdRxValue OdIfc4x2::IfcWall::getAttr ( const char * attrName ) const

overridevirtual

Returns an attribute value for the specified attribute name.

Parameters

attrName

[in] Name of an attribute to query.

Returns

OdRxValue object that represents a generic variant type value.

Reimplemented from OdIfc4x2::IfcElement.

getAttr() [2/2]

virtual OdRxValue OdIfc4x2::IfcWall::getAttr ( const OdIfc::OdIfcAttribute attrDef ) const

overridevirtual

Returns an attribute value for the specified attribute definition.

Parameters

attrDef

[in] Attribute definition to query.

Returns

OdRxValue object that represents a generic variant type value.

Reimplemented from OdIfc4x2::IfcElement.

getInstanceType()

virtual OdDAI::Entity * OdIfc4x2::IfcWall::getInstanceType ( ) const

overridevirtual

Returns a type of a class instance.

Returns

Pointer to the <exref target=https://docs.opendesign.com/tkernel_api_cpp/OdDAI__Entity.html>>OdDAI::Entity</exref> type that determines an entity definition within a schema.

Reimplemented from OdIfc4x2::IfcBuildingElement.

Reimplemented in OdIfc4x2::IfcWallElementedCase, and OdIfc4x2::IfcWallStandardCase.

getPredefinedType()

IfcWallTypeEnum OdIfc4x2::IfcWall::getPredefinedType

(

)

const

Returns the value of PredefinedType attribute. This attribute represents predefined generic type for a wall that is specified in an enumeration. There can be a property set specified specifically for the predefined types.

Returns

Returns the value of PredefinedType attribute.

Remarks

The PredefinedType is only used if no IfcWallType is assigned, providing its own IfcWallType.

inFields()

virtual OdResult OdIfc4x2::IfcWall::inFields ( OdDAI::OdSpfFilerBase * rdFiler )

overridevirtual

Reads object's data from the specified filer.

Parameters

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.

Reimplemented from OdIfc4x2::IfcElement.

isKindOf()

virtual bool OdIfc4x2::IfcWall::isKindOf ( OdIfc::OdIfcEntityType entityType ) const

overridevirtual

Checks whether the specified instance is the object derived from or belongs to this class.

Parameters

entityType

[in] Entity to check.

Returns

true if the specified instance is the object derived from or belongs to this class, false otherwise.

Reimplemented from OdIfc4x2::IfcBuildingElement.

Reimplemented in OdIfc4x2::IfcWallElementedCase, and OdIfc4x2::IfcWallStandardCase.

outFields()

virtual OdResult OdIfc4x2::IfcWall::outFields ( OdDAI::OdSpfFilerBase * wrFiler )

overridevirtual

Writes object's data the the specified filer.

Parameters

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.

Reimplemented from OdIfc4x2::IfcElement.

putAttr() [1/2]

virtual bool OdIfc4x2::IfcWall::putAttr ( const char * explicitAttrName, const OdRxValue & val )

overridevirtual

Sets the specified attribute with a given value.

Parameters

explicitAttrName	[in] Explicit name of the attribute to set.
val	[in] Value to set.

Returns

true if the value is successfully set for the specified attribute, false otherwise.

Reimplemented from OdIfc4x2::IfcElement.

putAttr() [2/2]

virtual bool OdIfc4x2::IfcWall::putAttr ( const OdIfc::OdIfcAttribute explicitAttrDef, const OdRxValue & val )

overridevirtual

Sets the specified attribute with a given value.

Parameters

explicitAttrDef	[in] Explicit attribute definition to set.
val	[in] Value to set.

Returns

true if the value is successfully set for the specified attribute, false otherwise.

Reimplemented from OdIfc4x2::IfcElement.

setPredefinedType()

void OdIfc4x2::IfcWall::setPredefinedType

(

IfcWallTypeEnum

PredefinedType

)

Sets the value of PredefinedType attribute. This attribute represents predefined generic type for a wall that is specified in an enumeration. There can be a property set specified specifically for the predefined types.

Parameters

PredefinedType

[in] Predefined type to set.

Remarks

The PredefinedType is only used if no IfcWallType is assigned, providing its own IfcWallType.

testAttr() [1/2]

virtual bool OdIfc4x2::IfcWall::testAttr ( const char * explicitAttrName ) const

overridevirtual

Checks whether the specified attribute is set.

Parameters

explicitAttrName

[in] Explicit name of the attribute to test.

Returns

true if the specified attribute is set, false otherwise.

Reimplemented from OdIfc4x2::IfcElement.

testAttr() [2/2]

virtual bool OdIfc4x2::IfcWall::testAttr ( const OdIfc::OdIfcAttribute explicitAttrDef ) const

overridevirtual

Checks whether the specified attribute is set.

Parameters

explicitAttrDef

[in] Attribute definition to test.

Returns

true if the specified attribute is set, false otherwise.

Reimplemented from OdIfc4x2::IfcElement.

type()

virtual OdIfc::OdIfcEntityType OdIfc4x2::IfcWall::type ( ) const

overridevirtual

Returns the type of this entity.

Returns

A value of the <exref target=https://docs.opendesign.com/tkernel_api_cpp/OdIfc__OdIfcEntityType.html>>OdIfc::OdIfcEntityType</exref> type that represents type of this entity.

Reimplemented from OdIfc4x2::IfcBuildingElement.

Reimplemented in OdIfc4x2::IfcWallElementedCase, and OdIfc4x2::IfcWallStandardCase.

unsetAttr() [1/2]

virtual void OdIfc4x2::IfcWall::unsetAttr ( const char * explicitAttrName )

overridevirtual

Resets a value for the specified attribute.

Parameters

explicitAttrName

[in] Explicit name of the attribute to reset.

Reimplemented from OdIfc4x2::IfcElement.

unsetAttr() [2/2]

virtual void OdIfc4x2::IfcWall::unsetAttr ( const OdIfc::OdIfcAttribute explicitAttrDef )

overridevirtual

Resets a value for the specified attribute.

Parameters

explicitAttrDef

[in] Explicit definition that represents an attribute to reset.

Reimplemented from OdIfc4x2::IfcElement.

Member Data Documentation

m_PredefinedType

OdDAI::Enum OdIfc4x2::IfcWall::m_PredefinedType

protected

Definition at line 313 of file Ifc4x2/IfcWallAutoImpl.h.

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The documentation for this class was generated from the following file:

• Ifc4x2/IfcWallAutoImpl.h