IBooleanEntity_DG Interface
- Subtract
- Unite
- Intersect
- SurfaceIntersection
Interface for performing Boolean operations
See also: Bool Op sample
void Subtract(IEntity_DG entity)
Subtracts entity from this.
entity remains inchanged. Use IEntity_DG.Clone() prior the operation if this entity has to remain unchanged also.
When both entites have "BRep" geometry type, geometry of this entity becomes a compound
shape (Implements IBRepCompound_DG) because the result may not be a linked (single piece) geometry.
Individual shapes can be accessed via:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > GetGeometryType()
IGeometry_DG >
IBRepGeometry_DG > GetShape() > IBRepShape_DG > GetShapeType()
IBRepShape_DG > IBRepCompound_DG > GetShapeCount()
IBRepCompound_DG > GetShape(index) > IBRepShape_DG > GetShapeType()
If either entity has other than "BRep" geometry type, they both are cloned to "Mesh" type and the result of the operation, which is also a geometry of "Mesh" type is stored in this entity as its new geometry.
Query IMesh from geometry of this:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > IMesh to access the mesh.
void Unite(IEntity_DG entity)
This entity changes to union of this and entity. entity remains inchanged.
Use IEntity_DG.Clone() prior the operation if this entity has to remain unchanged also.
When both entites have "BRep" geometry type, geometry of this entity becomes a compound
shape
(Implements IBRepCompound_DG) because the result may not be a linked (single piece) geometry
Individual shapes can be accessed via:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > GetGeometryType()
IGeometry_DG >
IBRepGeometry_DG > GetShape() > IBRepShape_DG > GetShapeType()
IBRepShape_DG > IBRepCompound_DG > GetShapeCount()
IBRepCompound_DG > GetShape(index) > IBRepShape_DG > GetShapeType()
If either entity has other than "BRep" geometry type, they both are cloned to "Mesh" type and the result of the operation, which is also a geometry of "Mesh" type is stored in this entity as its new geometry.
Query IMesh from geometry of this:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > IMesh to access the mesh.
void Intersect(IEntity_DG entity)
Intersects this with entity.
entity remains inchanged.
Use IEntity_DG.Clone() prior the operation if this entity has to remain unchanged also.
When both entites have "BRep" geometry type, geometry of this entity becomes a compound shape
(Implements IBRepCompound_DG) because the result may not be a linked (single piece) geometry. Use IEntity_DG.Clone() prior the operation if this entity has to remain unchanged also.
Individual shapes can be accessed via:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > GetGeometryType()
IGeometry_DG >
IBRepGeometry_DG > GetShape() > IBRepShape_DG > GetShapeType()
IBRepShape_DG > IBRepCompound_DG > GetShapeCount()
IBRepCompound_DG > GetShape(index) > IBRepShape_DG > GetShapeType()
If either entity has other than "BRep" geometry type, they both are cloned to "Mesh" type and the result of the operation, which is also a geometry of "Mesh" type is stored in this entity as its new geometry.
Query IMesh from geometry of this:
thisEntity > IEntity_DG.GetGeometry() > IGeometry_DG > IMesh to access the mesh.
IEntity_DG SurfaceIntersection(IEntity_DG entity)
Returns 1D intersection of surfaces. This and entity remain unchanged.
When both entites have "BRep" geometry type the returned entity also has "BRep" geometry.
Its BRep shape is a compound (Implements IBRepCompound_DG), which consists of edges. It is recommended to verify that via:
ReturnedEntity > IEntity_DG.GetGeometry() > IGeometry_DG > GetGeometryType()
IGeometry_DG >
IBRepGeometry_DG > GetShape() > IBRepShape_DG > GetShapeType()
IBRepShape_DG > IBRepCompound_DG > GetShapeCount()
IBRepCompound_DG > GetShape(index) > IBRepShape_DG > GetShapeType()
IBRepShape_DG > IBRepEdge_DG > GetCurve() > ....
If either entity has other than "BRep" geometry type, they both are cloned to "Mesh" type for the operation. The returned entity is a group (an empty entity), children of which have geometry of "SegmentStrip" type. A group is retuned as the resulting sampled line often consists of several isolated closed loops.
To access the set of loops: Call IEntity_DG.GetChildCount().
If the returned number is zero, the enties do not intersect. To get the k-th intesection loop use:
ReturnedEntity > GetChildAt(k) > IEntity_DG > GetGeometry() > IGeometry_DG
> ISectionPointSet > GetPoints() > IMatrixData.
Count of sampling points in the loop can be obtained via: ISectionPointSet >
IArray2 > GetCount().
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