Festkörper - Entlang einer Leitlinie mit konstanter Richtung extrudiert | |

Fixed Reference Swept Area Solid |

Item | SPF | XML | Change | Description |
---|---|---|---|---|

4.0.0.0 |
||||

IfcFixedReferenceSweptAreaSolid | ADDED |

An IfcFixedReferenceSweptAreaSolid is a type of swept area solid which is the result of sweeping an area along a
*Directrix*. The swept area is provided by a subtype of IfcProfileDef. The profile is placed
by an implicit cartesian transformation operator at the start point of the sweep, where the profile normal agrees
to the tangent of the directrix at this point, and the profile's x-axis agrees to the *FixedReference* direction. The orientation of the curve during the sweeping operation is controlled by the *FixedReference* direction.

The *SweptArea* is swept along the *Directrix* in such a way that the origin of the local coordinate system
used to define the *SweptArea* is on the *Directrix* and the local X axis is in the direction of the projection of
*FixedReference* onto the normal plane to the directrix at this point. The resulting solid has the property that
the cross section of the surface by the normal plane to the *Directrix* at any point is a copy of the
*SweptArea*. The resulting swept solid is placed by the *Position* coordinate system.

The *Directrix* and the *ReferenceSurface* are positioned within the object coordinate system. The start
of the sweeping operation is at the *StartParam*, the parameter value is provided based on the curve parameterization.
If no *StartParam* is provided the start defaults to the begin of the directrix. The end of the sweeping operation is
at the *EndParam*, the parameter value is provided based on the curve parameterization. If no *EndParam* is provided
the end defaults to the end of the directrix.

NOTE TheStartParamand theEndParamare not normalized by default, they depend upon the parameterization of the curve. However using the IfcReparametrisedCompositeCurveSegment within an IfcCompositeCurve as the directrix allows to explicitly reparameterize the underlying sweeping curve.

EXAMPLE The reference surface is any surface (plane, cylindric, composite) situated in 3D space and positioned in the object coordinate system. In many cases, it is a surface of extrusion. The directrix lies on the surface, often defined as a p-curve at this reference surface. At any point of the directrix, a plane can be constructed. The origin of the position coordinate system lies at the directrix. The Axis3 (the z-axis, or normal) of the position coordinate system is identical to the tangent of the directrix at this point, the Axis1 (the x axis, or u) of the position coordinate system is identical to theFixedReferencedirection. The Axis2 (the y axis, or v) is constructed. In this case the resulting swept solid is not repositioned.

The orientation of the *SweptArea* as it sweeps along the *Directrix* is precisely defined by a
*CartesianTransformationOperator3d* with attributes:

*LocalOrigin*as point (0; 0; 0),*Axis1*as the*FixedReference*.*Axis3*as the direction of the tangent vector**t**at the point of the*Directrix*with parameter**u**.

The remaining attributes are defaulted to define a corresponding transformation matrix **T(u)**, which varies
with the *Directrix* parameter **u**.

NOTE The geometric shape of the solid is not dependent upon the curve parameterization; the volume depends upon the area swept and the length of theDirectrix.

NOTE Entity adapted fromfixed_reference_swept_surfacedefined in ISO 10303-42.

HISTORY New entity in IFC4.

Informal Propositions:

- The
*SweptArea*shall lie in the plane z = 0. - The
*FixedReference*shall not be parallel to a tangent vector to the directrix at any point along this curve. - The
*Directrix*curve shall be tangent continuous.

# | Attribute | Type | Cardinality | Description | G |
---|---|---|---|---|---|

3 | Directrix | IfcCurve |
The curve used to define the sweeping operation. The solid is generated by sweeping the SELF\IfcSweptAreaSolid.SweptArea along the Directrix. | X | |

4 | StartParam | IfcParameterValue | ? |
The parameter value on the Directrix at which the sweeping operation commences. If no value is provided the start of the sweeping operation is at the start of the Directrix.
| X |

5 | EndParam | IfcParameterValue | ? |
The parameter value on the Directrix at which the sweeping operation ends. < style="color:blue">If no value is provided the end of the sweeping operation is at the end of the Directrix. | X |

6 | FixedReference | IfcDirection |
The direction providing the fixed axis1 (x-axis) direction for orienting the swept area during the sweeping operation along the Directrix. | X |

Rule | Description |
---|---|

DirectrixBounded | If the values for StartParam or EndParam are omited, then the Directrix has to be a bounded or closed curve. |

# | Attribute | Type | Cardinality | Description | G |
---|---|---|---|---|---|

IfcRepresentationItem | |||||

LayerAssignment | IfcPresentationLayerAssignment @AssignedItems | S[0:1] | Assignment of the representation item to a single or multiple layer(s). The LayerAssignments can override a LayerAssignments of the IfcRepresentation it is used within the list of Items.
IFC2x3 CHANGE The inverse attribute IFC4 CHANGE The inverse attribute | X | |

StyledByItem | IfcStyledItem @Item | S[0:1] | Reference to the IfcStyledItem that provides presentation information to the representation, e.g. a curve style, including colour and thickness to a geometric curve.
IFC2x3 CHANGE The inverse attribute | X | |

IfcGeometricRepresentationItem | |||||

IfcSolidModel | |||||

Dim :=3 | IfcDimensionCount | The space dimensionality of this class, it is always 3. | X | ||

IfcSweptAreaSolid | |||||

1 | SweptArea | IfcProfileDef | The surface defining the area to be swept. It is given as a profile definition within the xy plane of the position coordinate system. | X | |

2 | Position | IfcAxis2Placement3D | ? |
Position coordinate system for the resulting swept solid of the sweeping operation. The position coordinate system allows for re-positioning of the swept solid. If not provided, the swept solid remains within the position as determined by the cross section or by the directrix used for the sweeping operation.
IFC4 CHANGE The attribute has been changed to OPTIONAL with upward compatibility for file-based exchange. | X |

IfcFixedReferenceSweptAreaSolid | |||||

3 | Directrix | IfcCurve |
The curve used to define the sweeping operation. The solid is generated by sweeping the SELF\IfcSweptAreaSolid.SweptArea along the Directrix. | X | |

4 | StartParam | IfcParameterValue | ? |
The parameter value on the Directrix at which the sweeping operation commences. If no value is provided the start of the sweeping operation is at the start of the Directrix.
| X |

5 | EndParam | IfcParameterValue | ? |
The parameter value on the Directrix at which the sweeping operation ends. < style="color:blue">If no value is provided the end of the sweeping operation is at the end of the Directrix. | X |

6 | FixedReference | IfcDirection |
The direction providing the fixed axis1 (x-axis) direction for orienting the swept area during the sweeping operation along the Directrix. | X |

` <xs:element name="IfcFixedReferenceSweptAreaSolid" type="ifc:IfcFixedReferenceSweptAreaSolid" substitutionGroup="ifc:IfcSweptAreaSolid" nillable="true"/>`

<xs:complexType name="IfcFixedReferenceSweptAreaSolid">

<xs:complexContent>

<xs:extension base="ifc:IfcSweptAreaSolid">

<xs:sequence>

<xs:element name="Directrix" type="ifc:IfcCurve" nillable="true"/>

<xs:element name="FixedReference" type="ifc:IfcDirection" nillable="true"/>

</xs:sequence>

<xs:attribute name="StartParam" type="ifc:IfcParameterValue" use="optional"/>

<xs:attribute name="EndParam" type="ifc:IfcParameterValue" use="optional"/>

</xs:extension>

</xs:complexContent>

</xs:complexType>

```
ENTITY IfcFixedReferenceSweptAreaSolid
```

SUBTYPE OF (IfcSweptAreaSolid)**;**

Directrix : IfcCurve;

StartParam : OPTIONAL IfcParameterValue;

EndParam : OPTIONAL IfcParameterValue;

FixedReference : IfcDirection;

WHERE

DirectrixBounded : (EXISTS(StartParam) AND EXISTS(EndParam)) OR

(SIZEOF(['IFCGEOMETRYRESOURCE.IfcConic', 'IFCGEOMETRYRESOURCE.IfcBoundedCurve'] * TYPEOF(Directrix)) = 1);

END_ENTITY;