Open CASCADE Technology  7.2.0
Public Member Functions

BRepFeat_SplitShape Class Reference

One of the most significant aspects of BRepFeat functionality is the use of local operations as opposed to global ones. In a global operation, you would first construct a form of the type you wanted in your final feature, and then remove matter so that it could fit into your initial basis object. In a local operation, however, you specify the domain of the feature construction with aspects of the shape on which the feature is being created. These semantics are expressed in terms of a member shape of the basis shape from which - or up to which - matter will be added or removed. As a result, local operations make calculations simpler and faster than global operations. In BRepFeat, the semantics of local operations define features constructed from a contour or a part of the basis shape referred to as the tool. In a SplitShape object, wires or edges of a face in the basis shape to be used as a part of the feature are cut out and projected to a plane outside or inside the basis shape. By rebuilding the initial shape incorporating the edges and the faces of the tool, protrusion or depression features can be constructed. More...

#include <BRepFeat_SplitShape.hxx>

Inheritance diagram for BRepFeat_SplitShape:
Inheritance graph
[legend]

Public Member Functions

 BRepFeat_SplitShape ()
 Empty constructor. More...
 
 BRepFeat_SplitShape (const TopoDS_Shape &S)
 Creates the process with the shape <S>. More...
 
Standard_Boolean Add (const TopTools_SequenceOfShape &theEdges)
 Add splitting edges or wires for whole initial shape withot additional specification edge->face, edge->edge This method puts edge on the corresponding faces from initial shape. More...
 
void Init (const TopoDS_Shape &S)
 Initializes the process on the shape <S>. More...
 
void SetCheckInterior (const Standard_Boolean ToCheckInterior)
 Set the flag of check internal intersections default value is True (to check) More...
 
void Add (const TopoDS_Wire &W, const TopoDS_Face &F)
 Adds the wire <W> on the face <F>. Raises NoSuchObject if <F> does not belong to the original shape. More...
 
void Add (const TopoDS_Edge &E, const TopoDS_Face &F)
 Adds the edge <E> on the face <F>. More...
 
void Add (const TopoDS_Compound &Comp, const TopoDS_Face &F)
 Adds the compound <Comp> on the face <F>. The compound <Comp> must consist of edges lying on the face <F>. If edges are geometrically connected, they must be connected topologically, i.e. they must share common vertices. More...
 
void Add (const TopoDS_Edge &E, const TopoDS_Edge &EOn)
 Adds the edge <E> on the existing edge <EOn>. More...
 
const TopTools_ListOfShapeDirectLeft () const
 Returns the faces which are the left of the projected wires. More...
 
const TopTools_ListOfShapeLeft () const
 Returns the faces of the "left" part on the shape. (It is build from DirectLeft, with the faces connected to this set, and so on...). Raises NotDone if IsDone returns <Standard_False>. More...
 
void Build () override
 Builds the cut and the resulting faces and edges as well. More...
 
virtual Standard_Boolean IsDeleted (const TopoDS_Shape &S) override
 Returns true if the shape has been deleted. More...
 
const TopTools_ListOfShapeModified (const TopoDS_Shape &F) override
 Returns the list of generated Faces. More...
 
- Public Member Functions inherited from BRepBuilderAPI_MakeShape
virtual const TopoDS_ShapeShape ()
 Returns a shape built by the shape construction algorithm. Raises exception StdFail_NotDone if the shape was not built. More...
 
 operator TopoDS_Shape ()
 
virtual const TopTools_ListOfShapeGenerated (const TopoDS_Shape &S)
 Returns the list of shapes generated from the shape <S>. More...
 
- Public Member Functions inherited from BRepBuilderAPI_Command
virtual ~BRepBuilderAPI_Command ()
 
virtual Standard_Boolean IsDone () const
 
void Check () const
 Raises NotDone if done is false. More...
 

Additional Inherited Members

- Protected Member Functions inherited from BRepBuilderAPI_MakeShape
 BRepBuilderAPI_MakeShape ()
 
- Protected Member Functions inherited from BRepBuilderAPI_Command
 BRepBuilderAPI_Command ()
 Set done to False. More...
 
void Done ()
 Set done to true. More...
 
void NotDone ()
 Set done to false. More...
 
- Protected Attributes inherited from BRepBuilderAPI_MakeShape
TopoDS_Shape myShape
 
TopTools_ListOfShape myGenerated
 

Detailed Description

One of the most significant aspects of BRepFeat functionality is the use of local operations as opposed to global ones. In a global operation, you would first construct a form of the type you wanted in your final feature, and then remove matter so that it could fit into your initial basis object. In a local operation, however, you specify the domain of the feature construction with aspects of the shape on which the feature is being created. These semantics are expressed in terms of a member shape of the basis shape from which - or up to which - matter will be added or removed. As a result, local operations make calculations simpler and faster than global operations. In BRepFeat, the semantics of local operations define features constructed from a contour or a part of the basis shape referred to as the tool. In a SplitShape object, wires or edges of a face in the basis shape to be used as a part of the feature are cut out and projected to a plane outside or inside the basis shape. By rebuilding the initial shape incorporating the edges and the faces of the tool, protrusion or depression features can be constructed.

Constructor & Destructor Documentation

◆ BRepFeat_SplitShape() [1/2]

BRepFeat_SplitShape::BRepFeat_SplitShape ( )

Empty constructor.

◆ BRepFeat_SplitShape() [2/2]

BRepFeat_SplitShape::BRepFeat_SplitShape ( const TopoDS_Shape S)

Creates the process with the shape <S>.

Member Function Documentation

◆ Add() [1/5]

Standard_Boolean BRepFeat_SplitShape::Add ( const TopTools_SequenceOfShape theEdges)

Add splitting edges or wires for whole initial shape withot additional specification edge->face, edge->edge This method puts edge on the corresponding faces from initial shape.

◆ Add() [2/5]

void BRepFeat_SplitShape::Add ( const TopoDS_Wire W,
const TopoDS_Face F 
)

Adds the wire <W> on the face <F>. Raises NoSuchObject if <F> does not belong to the original shape.

◆ Add() [3/5]

void BRepFeat_SplitShape::Add ( const TopoDS_Edge E,
const TopoDS_Face F 
)

Adds the edge <E> on the face <F>.

◆ Add() [4/5]

void BRepFeat_SplitShape::Add ( const TopoDS_Compound Comp,
const TopoDS_Face F 
)

Adds the compound <Comp> on the face <F>. The compound <Comp> must consist of edges lying on the face <F>. If edges are geometrically connected, they must be connected topologically, i.e. they must share common vertices.

Raises NoSuchObject if <F> does not belong to the original shape.

◆ Add() [5/5]

void BRepFeat_SplitShape::Add ( const TopoDS_Edge E,
const TopoDS_Edge EOn 
)

Adds the edge <E> on the existing edge <EOn>.

◆ Build()

void BRepFeat_SplitShape::Build ( )
overridevirtual

Builds the cut and the resulting faces and edges as well.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ DirectLeft()

const TopTools_ListOfShape& BRepFeat_SplitShape::DirectLeft ( ) const

Returns the faces which are the left of the projected wires.

◆ Init()

void BRepFeat_SplitShape::Init ( const TopoDS_Shape S)

Initializes the process on the shape <S>.

◆ IsDeleted()

virtual Standard_Boolean BRepFeat_SplitShape::IsDeleted ( const TopoDS_Shape S)
overridevirtual

Returns true if the shape has been deleted.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ Left()

const TopTools_ListOfShape& BRepFeat_SplitShape::Left ( ) const

Returns the faces of the "left" part on the shape. (It is build from DirectLeft, with the faces connected to this set, and so on...). Raises NotDone if IsDone returns <Standard_False>.

◆ Modified()

const TopTools_ListOfShape& BRepFeat_SplitShape::Modified ( const TopoDS_Shape F)
overridevirtual

Returns the list of generated Faces.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ SetCheckInterior()

void BRepFeat_SplitShape::SetCheckInterior ( const Standard_Boolean  ToCheckInterior)

Set the flag of check internal intersections default value is True (to check)


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