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| IntPatch_Intersection () |
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| IntPatch_Intersection (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Handle< Adaptor3d_Surface > &S2, const Handle< Adaptor3d_TopolTool > &D2, const Standard_Real TolArc, const Standard_Real TolTang) |
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| IntPatch_Intersection (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Standard_Real TolArc, const Standard_Real TolTang) |
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void | SetTolerances (const Standard_Real TolArc, const Standard_Real TolTang, const Standard_Real UVMaxStep, const Standard_Real Fleche) |
| Set the tolerances used by the algorithms: — Implicit - Parametric — Parametric - Parametric — Implicit - Implicit. More...
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void | Perform (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Handle< Adaptor3d_Surface > &S2, const Handle< Adaptor3d_TopolTool > &D2, const Standard_Real TolArc, const Standard_Real TolTang, const Standard_Boolean isGeomInt=Standard_True, const Standard_Boolean theIsReqToKeepRLine=Standard_False, const Standard_Boolean theIsReqToPostWLProc=Standard_True) |
| Flag theIsReqToKeepRLine has been entered only for compatibility with TopOpeBRep package. It shall be deleted after deleting TopOpeBRep. When intersection result returns IntPatch_RLine and another IntPatch_Line (not restriction) we (in case of theIsReqToKeepRLine==TRUE) will always keep both lines even if they are coincided. Flag theIsReqToPostWLProc has been entered only for compatibility with TopOpeBRep package. It shall be deleted after deleting TopOpeBRep. If theIsReqToPostWLProc == FALSE, then we will work with Walking-line obtained after intersection algorithm directly (without any post-processing). More...
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void | Perform (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Handle< Adaptor3d_Surface > &S2, const Handle< Adaptor3d_TopolTool > &D2, const Standard_Real TolArc, const Standard_Real TolTang, IntSurf_ListOfPntOn2S &LOfPnts, const Standard_Boolean isGeomInt=Standard_True, const Standard_Boolean theIsReqToKeepRLine=Standard_False, const Standard_Boolean theIsReqToPostWLProc=Standard_True) |
| If isGeomInt == Standard_False, then method Param-Param intersection will be used. Flag theIsReqToKeepRLine has been entered only for compatibility with TopOpeBRep package. It shall be deleted after deleting TopOpeBRep. When intersection result returns IntPatch_RLine and another IntPatch_Line (not restriction) we (in case of theIsReqToKeepRLine==TRUE) will always keep both lines even if they are coincided. Flag theIsReqToPostWLProc has been entered only for compatibility with TopOpeBRep package. It shall be deleted after deleting TopOpeBRep. If theIsReqToPostWLProc == FALSE, then we will work with Walking-line obtained after intersection algorithm directly (without any post-processing). More...
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void | Perform (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Handle< Adaptor3d_Surface > &S2, const Handle< Adaptor3d_TopolTool > &D2, const Standard_Real U1, const Standard_Real V1, const Standard_Real U2, const Standard_Real V2, const Standard_Real TolArc, const Standard_Real TolTang) |
| Perform with start point. More...
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void | Perform (const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Standard_Real TolArc, const Standard_Real TolTang) |
| Uses for finding self-intersected surfaces. More...
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Standard_Boolean | IsDone () const |
| Returns True if the calculus was successful. More...
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Standard_Boolean | IsEmpty () const |
| Returns true if the is no intersection. More...
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Standard_Boolean | TangentFaces () const |
| Returns True if the two patches are considered as entirely tangent, i-e every restriction arc of one patch is inside the geometric base of the other patch. More...
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Standard_Boolean | OppositeFaces () const |
| Returns True when the TangentFaces returns True and the normal vectors evaluated at a point on the first and the second surface are opposite. The exception DomainError is raised if TangentFaces returns False. More...
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Standard_Integer | NbPnts () const |
| Returns the number of "single" points. More...
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const IntPatch_Point & | Point (const Standard_Integer Index) const |
| Returns the point of range Index. An exception is raised if Index<=0 or Index>NbPnt. More...
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Standard_Integer | NbLines () const |
| Returns the number of intersection lines. More...
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const Handle< IntPatch_Line > & | Line (const Standard_Integer Index) const |
| Returns the line of range Index. An exception is raised if Index<=0 or Index>NbLine. More...
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const IntPatch_SequenceOfLine & | SequenceOfLine () const |
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void | Dump (const Standard_Integer Mode, const Handle< Adaptor3d_Surface > &S1, const Handle< Adaptor3d_TopolTool > &D1, const Handle< Adaptor3d_Surface > &S2, const Handle< Adaptor3d_TopolTool > &D2) const |
| Dump of each result line. Mode for more accurate dumps. More...
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static Standard_Boolean | CheckSingularPoints (const Handle< Adaptor3d_Surface > &theS1, const Handle< Adaptor3d_TopolTool > &theD1, const Handle< Adaptor3d_Surface > &theS2, Standard_Real &theDist) |
| Checks if surface theS1 has degenerated boundary (dS/du or dS/dv = 0) and calculates minimal distance between corresponding singular points and surface theS2 If singular point exists the method returns "true" and stores minimal distance in theDist. More...
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static Standard_Real | DefineUVMaxStep (const Handle< Adaptor3d_Surface > &theS1, const Handle< Adaptor3d_TopolTool > &theD1, const Handle< Adaptor3d_Surface > &theS2, const Handle< Adaptor3d_TopolTool > &theD2) |
| Calculates recommended value for myUVMaxStep depending on surfaces and their domains. More...
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static void | PrepareSurfaces (const Handle< Adaptor3d_Surface > &theS1, const Handle< Adaptor3d_TopolTool > &theD1, const Handle< Adaptor3d_Surface > &theS2, const Handle< Adaptor3d_TopolTool > &theD2, const Standard_Real Tol, NCollection_Vector< Handle< Adaptor3d_Surface >> &theSeqHS1, NCollection_Vector< Handle< Adaptor3d_Surface >> &theSeqHS2) |
| Prepares surfaces for intersection. More...
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This class provides a generic algorithm to intersect 2 surfaces.
Set the tolerances used by the algorithms: — Implicit - Parametric — Parametric - Parametric — Implicit - Implicit.
TolArc is used to compute the intersections between the restrictions of a surface and a walking line.
TolTang is used to compute the points on a walking line, and in geometric algorithms.
Fleche is a parameter used in the walking algorithms to provide small curvatures on a line.
UVMaxStep is a parameter used in the walking algorithms to compute the distance between to points in their respective parametric spaces.