Open CASCADE Technology 7.8.0
Public Member Functions
BRepFilletAPI_MakeFillet Class Reference

Describes functions to build fillets on the broken edges of a shell or solid. A MakeFillet object provides a framework for: More...

#include <BRepFilletAPI_MakeFillet.hxx>

Inheritance diagram for BRepFilletAPI_MakeFillet:
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Public Member Functions

 BRepFilletAPI_MakeFillet (const TopoDS_Shape &S, const ChFi3d_FilletShape FShape=ChFi3d_Rational)
 Initializes the computation of the fillets. <FShape> sets the type of fillet surface. The default value is ChFi3d_Rational (classical nurbs representation of circles). ChFi3d_QuasiAngular corresponds to a nurbs representation of circles which parameterisation matches the circle one. ChFi3d_Polynomial corresponds to a polynomial representation of circles.
 
void SetParams (const Standard_Real Tang, const Standard_Real Tesp, const Standard_Real T2d, const Standard_Real TApp3d, const Standard_Real TolApp2d, const Standard_Real Fleche)
 
void SetContinuity (const GeomAbs_Shape InternalContinuity, const Standard_Real AngularTolerance)
 Changes the parameters of continiuity InternalContinuity to produce fillet'surfaces with an continuity Ci (i=0,1 or 2). By defaultInternalContinuity = GeomAbs_C1. AngularTolerance is the G1 tolerance between fillet and support'faces.
 
void Add (const TopoDS_Edge &E) override
 Adds a fillet contour in the builder (builds a contour of tangent edges). The Radius must be set after.
 
void Add (const Standard_Real Radius, const TopoDS_Edge &E)
 Adds a fillet description in the builder.
 
void Add (const Standard_Real R1, const Standard_Real R2, const TopoDS_Edge &E)
 Adds a fillet description in the builder.
 
void Add (const Handle< Law_Function > &L, const TopoDS_Edge &E)
 Adds a fillet description in the builder.
 
void Add (const TColgp_Array1OfPnt2d &UandR, const TopoDS_Edge &E)
 Adds a fillet description in the builder.
 
void SetRadius (const Standard_Real Radius, const Standard_Integer IC, const Standard_Integer IinC)
 Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where Radius is the radius of the fillet.
 
void SetRadius (const Standard_Real R1, const Standard_Real R2, const Standard_Integer IC, const Standard_Integer IinC)
 Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to a linear evolution law defined from R1 to R2, between the first and last vertices of the contour of index IC.
 
void SetRadius (const Handle< Law_Function > &L, const Standard_Integer IC, const Standard_Integer IinC)
 Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to the evolution law L, between the first and last vertices of the contour of index IC.
 
void SetRadius (const TColgp_Array1OfPnt2d &UandR, const Standard_Integer IC, const Standard_Integer IinC)
 Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to the evolution law which interpolates the set of parameter and radius pairs given in the array UandR as follows:
 
void ResetContour (const Standard_Integer IC) override
 Erases the radius information on the contour of index IC in the internal data structure of this algorithm. Use the SetRadius function to reset this data. Warning Nothing is done if IC is outside the bounds of the table of contours.
 
Standard_Boolean IsConstant (const Standard_Integer IC)
 Returns true if the radius of the fillet along the contour of index IC in the internal data structure of this algorithm is constant, Warning False is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.
 
Standard_Real Radius (const Standard_Integer IC)
 Returns the radius of the fillet along the contour of index IC in the internal data structure of this algorithm Warning.
 
Standard_Boolean IsConstant (const Standard_Integer IC, const TopoDS_Edge &E)
 Returns true if the radius of the fillet along the edge E of the contour of index IC in the internal data structure of this algorithm is constant. Warning False is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.
 
Standard_Real Radius (const Standard_Integer IC, const TopoDS_Edge &E)
 Returns the radius of the fillet along the edge E of the contour of index IC in the internal data structure of this algorithm. Warning.
 
void SetRadius (const Standard_Real Radius, const Standard_Integer IC, const TopoDS_Edge &E)
 Assigns Radius as the radius of the fillet on the edge E.
 
void SetRadius (const Standard_Real Radius, const Standard_Integer IC, const TopoDS_Vertex &V)
 
Standard_Boolean GetBounds (const Standard_Integer IC, const TopoDS_Edge &E, Standard_Real &F, Standard_Real &L)
 
Handle< Law_FunctionGetLaw (const Standard_Integer IC, const TopoDS_Edge &E)
 
void SetLaw (const Standard_Integer IC, const TopoDS_Edge &E, const Handle< Law_Function > &L)
 
void SetFilletShape (const ChFi3d_FilletShape FShape)
 Assigns FShape as the type of fillet shape built by this algorithm.
 
ChFi3d_FilletShape GetFilletShape () const
 Returns the type of fillet shape built by this algorithm.
 
Standard_Integer NbContours () const override
 Returns the number of contours generated using the Add function in the internal data structure of this algorithm.
 
Standard_Integer Contour (const TopoDS_Edge &E) const override
 Returns the index of the contour in the internal data structure of this algorithm which contains the edge E of the shape. This function returns 0 if the edge E does not belong to any contour. Warning This index can change if a contour is removed from the internal data structure of this algorithm using the function Remove.
 
Standard_Integer NbEdges (const Standard_Integer I) const override
 Returns the number of edges in the contour of index I in the internal data structure of this algorithm. Warning Returns 0 if I is outside the bounds of the table of contours.
 
const TopoDS_EdgeEdge (const Standard_Integer I, const Standard_Integer J) const override
 Returns the edge of index J in the contour of index I in the internal data structure of this algorithm. Warning Returns a null shape if:
 
void Remove (const TopoDS_Edge &E) override
 Removes the contour in the internal data structure of this algorithm which contains the edge E of the shape. Warning Nothing is done if the edge E does not belong to the contour in the internal data structure of this algorithm.
 
Standard_Real Length (const Standard_Integer IC) const override
 Returns the length of the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if IC is outside the bounds of the table of contours.
 
TopoDS_Vertex FirstVertex (const Standard_Integer IC) const override
 Returns the first vertex of the contour of index IC in the internal data structure of this algorithm. Warning Returns a null shape if IC is outside the bounds of the table of contours.
 
TopoDS_Vertex LastVertex (const Standard_Integer IC) const override
 Returns the last vertex of the contour of index IC in the internal data structure of this algorithm. Warning Returns a null shape if IC is outside the bounds of the table of contours.
 
Standard_Real Abscissa (const Standard_Integer IC, const TopoDS_Vertex &V) const override
 Returns the curvilinear abscissa of the vertex V on the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if:
 
Standard_Real RelativeAbscissa (const Standard_Integer IC, const TopoDS_Vertex &V) const override
 Returns the relative curvilinear abscissa (i.e. between 0 and 1) of the vertex V on the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if:
 
Standard_Boolean ClosedAndTangent (const Standard_Integer IC) const override
 Returns true if the contour of index IC in the internal data structure of this algorithm is closed and tangential at the point of closure. Warning Returns false if IC is outside the bounds of the table of contours.
 
Standard_Boolean Closed (const Standard_Integer IC) const override
 Returns true if the contour of index IC in the internal data structure of this algorithm is closed. Warning Returns false if IC is outside the bounds of the table of contours.
 
virtual void Build (const Message_ProgressRange &theRange=Message_ProgressRange()) override
 Builds the fillets on all the contours in the internal data structure of this algorithm and constructs the resulting shape. Use the function IsDone to verify that the filleted shape is built. Use the function Shape to retrieve the filleted shape. Warning The construction of fillets implements highly complex construction algorithms. Consequently, there may be instances where the algorithm fails, for example if the data defining the radius of the fillet is not compatible with the geometry of the initial shape. There is no initial analysis of errors and they only become evident at the construction stage. Additionally, in the current software release, the following cases are not handled:
 
void Reset () override
 Reinitializes this algorithm, thus canceling the effects of the Build function. This function allows modifications to be made to the contours and fillet parameters in order to rebuild the shape.
 
Handle< TopOpeBRepBuild_HBuilderBuilder () const
 Returns the internal topology building algorithm.
 
virtual const TopTools_ListOfShapeGenerated (const TopoDS_Shape &EorV) override
 Returns the list of shapes generated from the shape <EorV>.
 
virtual const TopTools_ListOfShapeModified (const TopoDS_Shape &F) override
 Returns the list of shapes modified from the shape <F>.
 
virtual Standard_Boolean IsDeleted (const TopoDS_Shape &F) override
 Returns true if the shape S has been deleted.
 
Standard_Integer NbSurfaces () const
 returns the number of surfaces after the shape creation.
 
const TopTools_ListOfShapeNewFaces (const Standard_Integer I)
 Return the faces created for surface .
 
void Simulate (const Standard_Integer IC) override
 
Standard_Integer NbSurf (const Standard_Integer IC) const override
 
Handle< ChFiDS_SecHArray1Sect (const Standard_Integer IC, const Standard_Integer IS) const override
 
Standard_Integer NbFaultyContours () const
 Returns the number of contours where the computation of the fillet failed.
 
Standard_Integer FaultyContour (const Standard_Integer I) const
 for each I in [1.. NbFaultyContours] returns the index IC of the contour where the computation of the fillet failed. the method NbEdges(IC) gives the number of edges in the contour IC the method Edge(IC,ie) gives the edge number ie of the contour IC
 
Standard_Integer NbComputedSurfaces (const Standard_Integer IC) const
 returns the number of surfaces which have been computed on the contour IC
 
Handle< Geom_SurfaceComputedSurface (const Standard_Integer IC, const Standard_Integer IS) const
 returns the surface number IS concerning the contour IC
 
Standard_Integer NbFaultyVertices () const
 returns the number of vertices where the computation failed
 
TopoDS_Vertex FaultyVertex (const Standard_Integer IV) const
 returns the vertex where the computation failed
 
Standard_Boolean HasResult () const
 returns true if a part of the result has been computed if the filling in a corner failed a shape with a hole is returned
 
TopoDS_Shape BadShape () const
 if (HasResult()) returns the partial result
 
ChFiDS_ErrorStatus StripeStatus (const Standard_Integer IC) const
 returns the status concerning the contour IC in case of error ChFiDS_Ok : the computation is Ok ChFiDS_StartsolFailure : the computation can't start, perhaps the the radius is too big ChFiDS_TwistedSurface : the computation failed because of a twisted surface ChFiDS_WalkingFailure : there is a problem in the walking ChFiDS_Error: other error different from above
 
- 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.
 
 operator TopoDS_Shape ()
 
- Public Member Functions inherited from BRepBuilderAPI_Command
virtual ~BRepBuilderAPI_Command ()
 
virtual Standard_Boolean IsDone () const
 
void Check () const
 Raises NotDone if done is false.
 

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

Detailed Description

Describes functions to build fillets on the broken edges of a shell or solid. A MakeFillet object provides a framework for:

Constructor & Destructor Documentation

◆ BRepFilletAPI_MakeFillet()

BRepFilletAPI_MakeFillet::BRepFilletAPI_MakeFillet ( const TopoDS_Shape S,
const ChFi3d_FilletShape  FShape = ChFi3d_Rational 
)

Initializes the computation of the fillets. <FShape> sets the type of fillet surface. The default value is ChFi3d_Rational (classical nurbs representation of circles). ChFi3d_QuasiAngular corresponds to a nurbs representation of circles which parameterisation matches the circle one. ChFi3d_Polynomial corresponds to a polynomial representation of circles.

Member Function Documentation

◆ Abscissa()

Standard_Real BRepFilletAPI_MakeFillet::Abscissa ( const Standard_Integer  IC,
const TopoDS_Vertex V 
) const
overridevirtual

Returns the curvilinear abscissa of the vertex V on the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if:

  • IC is outside the bounds of the table of contours, or
  • V is not on the contour of index IC.

Implements BRepFilletAPI_LocalOperation.

◆ Add() [1/5]

void BRepFilletAPI_MakeFillet::Add ( const Handle< Law_Function > &  L,
const TopoDS_Edge E 
)

Adds a fillet description in the builder.

  • builds a contour of tangent edges,
  • sest the radius evolution law.

◆ Add() [2/5]

void BRepFilletAPI_MakeFillet::Add ( const Standard_Real  R1,
const Standard_Real  R2,
const TopoDS_Edge E 
)

Adds a fillet description in the builder.

  • builds a contour of tangent edges,
  • sets a linear radius evolution law between the first and last vertex of the spine.

◆ Add() [3/5]

void BRepFilletAPI_MakeFillet::Add ( const Standard_Real  Radius,
const TopoDS_Edge E 
)

Adds a fillet description in the builder.

  • builds a contour of tangent edges,
  • sets the radius.

◆ Add() [4/5]

void BRepFilletAPI_MakeFillet::Add ( const TColgp_Array1OfPnt2d UandR,
const TopoDS_Edge E 
)

Adds a fillet description in the builder.

  • builds a contour of tangent edges,
  • sets the radius evolution law interpolating the values given in the array UandR :

p2d.X() = relative parameter on the spine [0,1] p2d.Y() = value of the radius.

◆ Add() [5/5]

void BRepFilletAPI_MakeFillet::Add ( const TopoDS_Edge E)
overridevirtual

Adds a fillet contour in the builder (builds a contour of tangent edges). The Radius must be set after.

Implements BRepFilletAPI_LocalOperation.

◆ BadShape()

TopoDS_Shape BRepFilletAPI_MakeFillet::BadShape ( ) const

if (HasResult()) returns the partial result

◆ Build()

virtual void BRepFilletAPI_MakeFillet::Build ( const Message_ProgressRange theRange = Message_ProgressRange())
overridevirtual

Builds the fillets on all the contours in the internal data structure of this algorithm and constructs the resulting shape. Use the function IsDone to verify that the filleted shape is built. Use the function Shape to retrieve the filleted shape. Warning The construction of fillets implements highly complex construction algorithms. Consequently, there may be instances where the algorithm fails, for example if the data defining the radius of the fillet is not compatible with the geometry of the initial shape. There is no initial analysis of errors and they only become evident at the construction stage. Additionally, in the current software release, the following cases are not handled:

  • the end point of the contour is the point of intersection of 4 or more edges of the shape, or
  • the intersection of the fillet with a face which limits the contour is not fully contained in this face.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ Builder()

Handle< TopOpeBRepBuild_HBuilder > BRepFilletAPI_MakeFillet::Builder ( ) const

Returns the internal topology building algorithm.

◆ Closed()

Standard_Boolean BRepFilletAPI_MakeFillet::Closed ( const Standard_Integer  IC) const
overridevirtual

Returns true if the contour of index IC in the internal data structure of this algorithm is closed. Warning Returns false if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ ClosedAndTangent()

Standard_Boolean BRepFilletAPI_MakeFillet::ClosedAndTangent ( const Standard_Integer  IC) const
overridevirtual

Returns true if the contour of index IC in the internal data structure of this algorithm is closed and tangential at the point of closure. Warning Returns false if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ ComputedSurface()

Handle< Geom_Surface > BRepFilletAPI_MakeFillet::ComputedSurface ( const Standard_Integer  IC,
const Standard_Integer  IS 
) const

returns the surface number IS concerning the contour IC

◆ Contour()

Standard_Integer BRepFilletAPI_MakeFillet::Contour ( const TopoDS_Edge E) const
overridevirtual

Returns the index of the contour in the internal data structure of this algorithm which contains the edge E of the shape. This function returns 0 if the edge E does not belong to any contour. Warning This index can change if a contour is removed from the internal data structure of this algorithm using the function Remove.

Implements BRepFilletAPI_LocalOperation.

◆ Edge()

const TopoDS_Edge & BRepFilletAPI_MakeFillet::Edge ( const Standard_Integer  I,
const Standard_Integer  J 
) const
overridevirtual

Returns the edge of index J in the contour of index I in the internal data structure of this algorithm. Warning Returns a null shape if:

  • I is outside the bounds of the table of contours, or
  • J is outside the bounds of the table of edges of the index I contour.

Implements BRepFilletAPI_LocalOperation.

◆ FaultyContour()

Standard_Integer BRepFilletAPI_MakeFillet::FaultyContour ( const Standard_Integer  I) const

for each I in [1.. NbFaultyContours] returns the index IC of the contour where the computation of the fillet failed. the method NbEdges(IC) gives the number of edges in the contour IC the method Edge(IC,ie) gives the edge number ie of the contour IC

◆ FaultyVertex()

TopoDS_Vertex BRepFilletAPI_MakeFillet::FaultyVertex ( const Standard_Integer  IV) const

returns the vertex where the computation failed

◆ FirstVertex()

TopoDS_Vertex BRepFilletAPI_MakeFillet::FirstVertex ( const Standard_Integer  IC) const
overridevirtual

Returns the first vertex of the contour of index IC in the internal data structure of this algorithm. Warning Returns a null shape if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ Generated()

virtual const TopTools_ListOfShape & BRepFilletAPI_MakeFillet::Generated ( const TopoDS_Shape EorV)
overridevirtual

Returns the list of shapes generated from the shape <EorV>.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ GetBounds()

Standard_Boolean BRepFilletAPI_MakeFillet::GetBounds ( const Standard_Integer  IC,
const TopoDS_Edge E,
Standard_Real F,
Standard_Real L 
)

◆ GetFilletShape()

ChFi3d_FilletShape BRepFilletAPI_MakeFillet::GetFilletShape ( ) const

Returns the type of fillet shape built by this algorithm.

◆ GetLaw()

Handle< Law_Function > BRepFilletAPI_MakeFillet::GetLaw ( const Standard_Integer  IC,
const TopoDS_Edge E 
)

◆ HasResult()

Standard_Boolean BRepFilletAPI_MakeFillet::HasResult ( ) const

returns true if a part of the result has been computed if the filling in a corner failed a shape with a hole is returned

◆ IsConstant() [1/2]

Standard_Boolean BRepFilletAPI_MakeFillet::IsConstant ( const Standard_Integer  IC)

Returns true if the radius of the fillet along the contour of index IC in the internal data structure of this algorithm is constant, Warning False is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.

◆ IsConstant() [2/2]

Standard_Boolean BRepFilletAPI_MakeFillet::IsConstant ( const Standard_Integer  IC,
const TopoDS_Edge E 
)

Returns true if the radius of the fillet along the edge E of the contour of index IC in the internal data structure of this algorithm is constant. Warning False is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.

◆ IsDeleted()

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

Returns true if the shape S has been deleted.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ LastVertex()

TopoDS_Vertex BRepFilletAPI_MakeFillet::LastVertex ( const Standard_Integer  IC) const
overridevirtual

Returns the last vertex of the contour of index IC in the internal data structure of this algorithm. Warning Returns a null shape if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ Length()

Standard_Real BRepFilletAPI_MakeFillet::Length ( const Standard_Integer  IC) const
overridevirtual

Returns the length of the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ Modified()

virtual const TopTools_ListOfShape & BRepFilletAPI_MakeFillet::Modified ( const TopoDS_Shape F)
overridevirtual

Returns the list of shapes modified from the shape <F>.

Reimplemented from BRepBuilderAPI_MakeShape.

◆ NbComputedSurfaces()

Standard_Integer BRepFilletAPI_MakeFillet::NbComputedSurfaces ( const Standard_Integer  IC) const

returns the number of surfaces which have been computed on the contour IC

◆ NbContours()

Standard_Integer BRepFilletAPI_MakeFillet::NbContours ( ) const
overridevirtual

Returns the number of contours generated using the Add function in the internal data structure of this algorithm.

Implements BRepFilletAPI_LocalOperation.

◆ NbEdges()

Standard_Integer BRepFilletAPI_MakeFillet::NbEdges ( const Standard_Integer  I) const
overridevirtual

Returns the number of edges in the contour of index I in the internal data structure of this algorithm. Warning Returns 0 if I is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ NbFaultyContours()

Standard_Integer BRepFilletAPI_MakeFillet::NbFaultyContours ( ) const

Returns the number of contours where the computation of the fillet failed.

◆ NbFaultyVertices()

Standard_Integer BRepFilletAPI_MakeFillet::NbFaultyVertices ( ) const

returns the number of vertices where the computation failed

◆ NbSurf()

Standard_Integer BRepFilletAPI_MakeFillet::NbSurf ( const Standard_Integer  IC) const
overridevirtual

◆ NbSurfaces()

Standard_Integer BRepFilletAPI_MakeFillet::NbSurfaces ( ) const

returns the number of surfaces after the shape creation.

◆ NewFaces()

const TopTools_ListOfShape & BRepFilletAPI_MakeFillet::NewFaces ( const Standard_Integer  I)

Return the faces created for surface .

◆ Radius() [1/2]

Standard_Real BRepFilletAPI_MakeFillet::Radius ( const Standard_Integer  IC)

Returns the radius of the fillet along the contour of index IC in the internal data structure of this algorithm Warning.

  • Use this function only if the radius is constant.
  • -1. is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.

◆ Radius() [2/2]

Standard_Real BRepFilletAPI_MakeFillet::Radius ( const Standard_Integer  IC,
const TopoDS_Edge E 
)

Returns the radius of the fillet along the edge E of the contour of index IC in the internal data structure of this algorithm. Warning.

  • Use this function only if the radius is constant.
  • -1 is returned if IC is outside the bounds of the table of contours or if E does not belong to the contour of index IC.

◆ RelativeAbscissa()

Standard_Real BRepFilletAPI_MakeFillet::RelativeAbscissa ( const Standard_Integer  IC,
const TopoDS_Vertex V 
) const
overridevirtual

Returns the relative curvilinear abscissa (i.e. between 0 and 1) of the vertex V on the contour of index IC in the internal data structure of this algorithm. Warning Returns -1. if:

  • IC is outside the bounds of the table of contours, or
  • V is not on the contour of index IC.

Implements BRepFilletAPI_LocalOperation.

◆ Remove()

void BRepFilletAPI_MakeFillet::Remove ( const TopoDS_Edge E)
overridevirtual

Removes the contour in the internal data structure of this algorithm which contains the edge E of the shape. Warning Nothing is done if the edge E does not belong to the contour in the internal data structure of this algorithm.

Implements BRepFilletAPI_LocalOperation.

◆ Reset()

void BRepFilletAPI_MakeFillet::Reset ( )
overridevirtual

Reinitializes this algorithm, thus canceling the effects of the Build function. This function allows modifications to be made to the contours and fillet parameters in order to rebuild the shape.

Implements BRepFilletAPI_LocalOperation.

◆ ResetContour()

void BRepFilletAPI_MakeFillet::ResetContour ( const Standard_Integer  IC)
overridevirtual

Erases the radius information on the contour of index IC in the internal data structure of this algorithm. Use the SetRadius function to reset this data. Warning Nothing is done if IC is outside the bounds of the table of contours.

Implements BRepFilletAPI_LocalOperation.

◆ Sect()

Handle< ChFiDS_SecHArray1 > BRepFilletAPI_MakeFillet::Sect ( const Standard_Integer  IC,
const Standard_Integer  IS 
) const
overridevirtual

◆ SetContinuity()

void BRepFilletAPI_MakeFillet::SetContinuity ( const GeomAbs_Shape  InternalContinuity,
const Standard_Real  AngularTolerance 
)

Changes the parameters of continiuity InternalContinuity to produce fillet'surfaces with an continuity Ci (i=0,1 or 2). By defaultInternalContinuity = GeomAbs_C1. AngularTolerance is the G1 tolerance between fillet and support'faces.

◆ SetFilletShape()

void BRepFilletAPI_MakeFillet::SetFilletShape ( const ChFi3d_FilletShape  FShape)

Assigns FShape as the type of fillet shape built by this algorithm.

◆ SetLaw()

void BRepFilletAPI_MakeFillet::SetLaw ( const Standard_Integer  IC,
const TopoDS_Edge E,
const Handle< Law_Function > &  L 
)

◆ SetParams()

void BRepFilletAPI_MakeFillet::SetParams ( const Standard_Real  Tang,
const Standard_Real  Tesp,
const Standard_Real  T2d,
const Standard_Real  TApp3d,
const Standard_Real  TolApp2d,
const Standard_Real  Fleche 
)

◆ SetRadius() [1/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const Handle< Law_Function > &  L,
const Standard_Integer  IC,
const Standard_Integer  IinC 
)

Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to the evolution law L, between the first and last vertices of the contour of index IC.

◆ SetRadius() [2/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const Standard_Real  R1,
const Standard_Real  R2,
const Standard_Integer  IC,
const Standard_Integer  IinC 
)

Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to a linear evolution law defined from R1 to R2, between the first and last vertices of the contour of index IC.

◆ SetRadius() [3/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const Standard_Real  Radius,
const Standard_Integer  IC,
const Standard_Integer  IinC 
)

Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where Radius is the radius of the fillet.

◆ SetRadius() [4/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const Standard_Real  Radius,
const Standard_Integer  IC,
const TopoDS_Edge E 
)

Assigns Radius as the radius of the fillet on the edge E.

◆ SetRadius() [5/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const Standard_Real  Radius,
const Standard_Integer  IC,
const TopoDS_Vertex V 
)

◆ SetRadius() [6/6]

void BRepFilletAPI_MakeFillet::SetRadius ( const TColgp_Array1OfPnt2d UandR,
const Standard_Integer  IC,
const Standard_Integer  IinC 
)

Sets the parameters of the fillet along the contour of index IC generated using the Add function in the internal data structure of this algorithm, where the radius of the fillet evolves according to the evolution law which interpolates the set of parameter and radius pairs given in the array UandR as follows:

  • the X coordinate of a point in UandR defines a relative parameter on the contour (i.e. a parameter between 0 and 1),
  • the Y coordinate of a point in UandR gives the corresponding value of the radius, and the radius evolves between the first and last vertices of the contour of index IC.

◆ Simulate()

void BRepFilletAPI_MakeFillet::Simulate ( const Standard_Integer  IC)
overridevirtual

◆ StripeStatus()

ChFiDS_ErrorStatus BRepFilletAPI_MakeFillet::StripeStatus ( const Standard_Integer  IC) const

returns the status concerning the contour IC in case of error ChFiDS_Ok : the computation is Ok ChFiDS_StartsolFailure : the computation can't start, perhaps the the radius is too big ChFiDS_TwistedSurface : the computation failed because of a twisted surface ChFiDS_WalkingFailure : there is a problem in the walking ChFiDS_Error: other error different from above


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