8.9 IfcGeometryResource

8.9.1 Schema definition

The schema IfcGeometryResource defines the resources used for geometric representations. The primary application of this resource is for representation of the shape or geometric form of an element. The geometric representation items defined here are also used to describe geometric models within the schema IfcGeometricModelResource.

The following is within the scope of the geometry resource:

• definition of points directly by their coordinate values and by parameter values on curves and surfaces
• definition of directions, vectors, and axis placements
• definition of transformation operators, both uniform and non-uniform
• definition of parametric curves
• definition of conic curves
• definition of curves defined on a parametric surface
• definition of offset curves
• definition of elementary surfaces
• definition of swept surfaces
• definition of parametric spline curves and surfaces
• definition of mapped items mapping source representations using transformation operators

Many definitions of this schema are adapted from definitions defined within ISO 10303-42. The IfcGeometryResource refers to clause 4, "Geometry" of the standard. The definitions of geometric and topological representation, when quoted from ISO 10303-42, are explicitly excluded from the copyright of this specification. Definition according to ISO 10303-42 Placement coordinate system A rectangular Cartesian coordinate system associated with the placement of a geometric entity in space, used to describe the interpretation of the attributes and to associate a unique parameterization with curve and surface entities." Definition according to ISO 10303-42 Space Dimensionality All geometry shall be defined in a right-handed rectangular Cartesian coordinate system with the same units on each axis. A common scheme has been used for the definition of both two-dimensional and three-dimensional geometry. Points and directions exists in both a two-dimensional and a three-dimensional form, these forms are distinguished solely by the presence, or absence, of a third coordinate value. Complex geometric entities are all defined using points and directions from which their space dimensionality can be deduced. Definition according to ISO 10303-42 Parameterization of analytic curves and surfaces Each curve on surface specified here has a defined parameterization. In some instances the definitions are in parametric terms. In others, the conic curves and elementary surfaces, the definitions are in geometric terms. In this latter case a placement coordinate system is used to define the parameterization. The geometric definitions contain some, but not all, of the data required for this. The relevant data to define this placement coordinate system is contained in the axis2 placement associated with the individual curve and surface entities. Definition according to ISO 10303-42 Curves The curve entities include lines, some elementary conics, and some referentially or procedurally defined curves. All the curves have a well defined parameterization which makes it possible to trim a curve or identify points on the curve by parameter value. For the conic curves a method of representation is used which separates their geometric form from their orientation and position in space. In each case, the position and orientation information is conveyed by an axis2 placement. A composite curve entity, which includes the facility to communicate continuity information at the curve-to-curve transition points, is provided for the construction of more complex curves. The offset curve type is a curve defined with reference to other geometry. Separate offset curves entities exist for 2D and 3D applications. Definition according to ISO 10303-42 Surfaces The simple surfaces are the planar surface, a surface of revolution and a surface of linear extrusion. As with curves, all surfaces have an associated standard parameterization. In many cases the surfaces, as defined, are unbounded; it is assumed that they will be bounded either explicitly or implicitly. Explicit bounding is achieved with the bounded surface; implicit bounding requires the association of additional topological information to define a face.

8.9.2 Types

1. IfcArcIndex
2. IfcAxis2Placement
3. IfcBSplineCurveForm
4. IfcBSplineSurfaceForm
5. IfcCurveMeasureSelect
6. IfcCurveOnSurface
7. IfcDimensionCount
8. IfcKnotType
9. IfcLineIndex
10. IfcPreferredSurfaceCurveRepresentation
11. IfcSegmentIndexSelect
12. IfcTransitionCode
13. IfcTrimmingPreference
14. IfcTrimmingSelect
15. IfcVectorOrDirection

8.9.3 Entities

1. IfcAxis1Placement
2. IfcAxis2Placement2D
3. IfcAxis2Placement3D
4. IfcAxis2PlacementLinear
5. IfcBSplineCurve
6. IfcBSplineCurveWithKnots
7. IfcBSplineSurface
8. IfcBSplineSurfaceWithKnots
9. IfcBoundaryCurve
10. IfcBoundedCurve
11. IfcBoundedSurface
12. IfcCartesianPoint
13. IfcCartesianTransformationOperator
14. IfcCartesianTransformationOperator2D
15. IfcCartesianTransformationOperator2DnonUniform
16. IfcCartesianTransformationOperator3D
17. IfcCartesianTransformationOperator3DnonUniform
18. IfcCircle
19. IfcClothoid
20. IfcCompositeCurve
21. IfcCompositeCurveOnSurface
22. IfcCompositeCurveSegment
23. IfcConic
24. IfcCosineSpiral
25. IfcCurve
26. IfcCurveBoundedPlane
27. IfcCurveBoundedSurface
28. IfcCurveSegment
29. IfcCylindricalSurface
30. IfcDirection
31. IfcElementarySurface
32. IfcEllipse
33. IfcGeometricRepresentationItem
34. IfcGradientCurve
35. IfcIndexedPolyCurve
36. IfcIntersectionCurve
37. IfcLine
38. IfcMappedItem
39. IfcOffsetCurve
40. IfcOffsetCurve2D
41. IfcOffsetCurve3D
42. IfcOffsetCurveByDistances
43. IfcOuterBoundaryCurve
44. IfcPcurve
45. IfcPlacement
46. IfcPlane
47. IfcPoint
48. IfcPointByDistanceExpression
49. IfcPointOnCurve
50. IfcPointOnSurface
51. IfcPolyline
52. IfcPolynomialCurve
53. IfcRationalBSplineCurveWithKnots
54. IfcRationalBSplineSurfaceWithKnots
55. IfcRectangularTrimmedSurface
56. IfcReparametrisedCompositeCurveSegment
57. IfcRepresentationItem
58. IfcRepresentationMap
59. IfcSeamCurve
60. IfcSecondOrderPolynomialSpiral
61. IfcSegment
62. IfcSegmentedReferenceCurve
63. IfcSeventhOrderPolynomialSpiral
64. IfcSineSpiral
65. IfcSphericalSurface
66. IfcSpiral
67. IfcSurface
68. IfcSurfaceCurve
69. IfcSurfaceOfLinearExtrusion
70. IfcSurfaceOfRevolution
71. IfcSweptSurface
72. IfcThirdOrderPolynomialSpiral
73. IfcToroidalSurface
74. IfcTrimmedCurve
75. IfcVector

8.9.4 Property Sets

No resources are available in this category.

8.9.5 Quantity Sets

No resources are available in this category.

8.9.6 Functions

1. IfcAssociatedSurface
2. IfcBaseAxis
3. IfcBuild2Axes
4. IfcBuildAxes
5. IfcConsecutiveSegments
6. IfcConstraintsParamBSpline
7. IfcCrossProduct
8. IfcCurveDim
9. IfcCurveWeightsPositive
10. IfcDotProduct
11. IfcFirstProjAxis
12. IfcGetBasisSurface
13. IfcListToArray
14. IfcMakeArrayOfArray
15. IfcNormalise
16. IfcOrthogonalComplement
17. IfcPointDim
18. IfcSameAxis2Placement
19. IfcSameCartesianPoint
20. IfcSameDirection
21. IfcSameValue
22. IfcScalarTimesVector
23. IfcSecondProjAxis
24. IfcSegmentDim
25. IfcSurfaceWeightsPositive
26. IfcVectorDifference
27. IfcVectorSum

8.9.7 Rules

No resources are available in this category.

8.9.8 PropertyEnumerations

No resources are available in this category.