// File: GccAna_Circ2d2TanOn_8.cxx // Created: Thu Jan 2 15:58:06 1992 // Author: Remi GILET // //========================================================================= // Creation d un cercle tangent a deux elements : Droite. + // Cercle. + // Point. + // centre sur un troisieme : Droite. + // Cercle. + //========================================================================= #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include GccAna_Circ2d2TanOn:: GccAna_Circ2d2TanOn (const GccEnt_QualifiedCirc& Qualified1 , const gp_Pnt2d& Point2 , const gp_Circ2d& OnCirc , const Standard_Real Tolerance ): cirsol(1,4) , qualifier1(1,4) , qualifier2(1,4), TheSame1(1,4) , TheSame2(1,4) , pnttg1sol(1,4) , pnttg2sol(1,4) , pntcen(1,4) , par1sol(1,4) , par2sol(1,4) , pararg1(1,4) , pararg2(1,4) , parcen3(1,4) { TheSame1.Init(0); TheSame2.Init(0); WellDone = Standard_False; NbrSol = 0; if (!(Qualified1.IsEnclosed() || Qualified1.IsEnclosing() || Qualified1.IsOutside() || Qualified1.IsUnqualified())) { GccEnt_BadQualifier::Raise(); return; } Standard_Real Tol = Abs(Tolerance); TColStd_Array1OfReal Radius(1,2); gp_Dir2d dirx(1.,0.); gp_Circ2d C1 = Qualified1.Qualified(); Standard_Real R1 = C1.Radius(); gp_Pnt2d center1(C1.Location()); //========================================================================= // Traitement des cas limites. + //========================================================================= Standard_Integer nbsol1 = 1; // Standard_Integer nbsol2 = 0; Standard_Real Ron = OnCirc.Radius(); Standard_Real distcco = OnCirc.Location().Distance(center1); gp_Pnt2d pinterm; gp_Dir2d dircc; Standard_Boolean SameCenter(Standard_False); if (!OnCirc.Location().IsEqual(center1,Precision::Confusion())) { dircc = gp_Dir2d(OnCirc.Location().XY()-center1.XY()); pinterm = gp_Pnt2d(center1.XY()+(distcco-Ron)*dircc.XY()); Standard_Real distcc2 =pinterm.Distance(Point2); Standard_Real distcc1 =pinterm.Distance(center1); Standard_Real d1 = Abs(distcc2-Abs(distcc1-R1)); Standard_Real d2 = Abs(distcc2-(distcc1+R1)); if ( d1 > Tol || d2 > Tol) { if (!SameCenter) pinterm = gp_Pnt2d(center1.XY()+(distcco+Ron)*dircc.XY()); distcc2 =pinterm.Distance(Point2); distcc1 =pinterm.Distance(center1); d1 = Abs(distcc2-Abs(distcc1-R1)); d2 = Abs(distcc2-(distcc1+R1)); if ( d1 > Tol || d2 > Tol ) { nbsol1 = 0; } } if (nbsol1 > 0) { if (Qualified1.IsEnclosed() || Qualified1.IsOutside()) { nbsol1 = 1; Radius(1) = Abs(distcc1-R1); } else if (Qualified1.IsEnclosing()) { nbsol1 = 1; Radius(1) = R1+distcc1; } else if (Qualified1.IsUnqualified()) { nbsol1 = 2; Radius(1) = Abs(distcc1-R1); Radius(2) = R1+distcc1; } for (Standard_Integer i = 1 ; i <= nbsol1 ; i++) { WellDone = Standard_True; if (!(i == 1 && SameCenter)) { NbrSol++; cirsol(NbrSol) = gp_Circ2d(gp_Ax2d(pinterm,dirx),Radius(i)); // =========================================================== gp_Dir2d dc1; if (!SameCenter) dc1 = gp_Dir2d(center1.XY()-pinterm.XY()); if (!Qualified1.IsUnqualified()) { qualifier1(NbrSol) = Qualified1.Qualifier(); } else if (Abs(distcc1+Radius(i)-R1) < Tol) { qualifier1(NbrSol) = GccEnt_enclosed; } else if (Abs(distcc1-R1-Radius(i)) < Tol) { qualifier1(NbrSol) = GccEnt_outside; } else { qualifier1(NbrSol) = GccEnt_enclosing; } qualifier2(NbrSol) = GccEnt_noqualifier; if (!SameCenter) pnttg1sol(NbrSol) = gp_Pnt2d(pinterm.XY()+Radius(i)*dc1.XY()); else pnttg1sol(NbrSol) = gp_Pnt2d(pinterm.XY()); pnttg2sol(NbrSol) = Point2; pntcen(NbrSol) = cirsol(NbrSol).Location(); par1sol(NbrSol)=ElCLib::Parameter(cirsol(NbrSol),pnttg1sol(NbrSol)); pararg1(NbrSol)=ElCLib::Parameter(C1,pnttg1sol(NbrSol)); par2sol(NbrSol)=ElCLib::Parameter(cirsol(NbrSol),pnttg2sol(NbrSol)); pararg2(NbrSol) = 0.; parcen3(NbrSol)=ElCLib::Parameter(OnCirc,pntcen(NbrSol)); } } if (WellDone) { return; } } } //========================================================================= // cas general. + //========================================================================= GccAna_CircPnt2dBisec Bis(C1,Point2); if (Bis.IsDone()) { Standard_Integer nbsolution = Bis.NbSolutions(); for (Standard_Integer i = 1 ; i <= nbsolution; i++) { Handle(GccInt_Bisec) Sol = Bis.ThisSolution(i); GccInt_IType type = Sol->ArcType(); IntAna2d_AnaIntersection Intp; if (type == GccInt_Lin) { Intp.Perform(Sol->Line(),OnCirc); } else if (type == GccInt_Cir) { Intp.Perform(OnCirc,Sol->Circle()); } else if (type == GccInt_Hpr) { Intp.Perform(OnCirc,IntAna2d_Conic(Sol->Hyperbola())); } else if (type == GccInt_Ell) { Intp.Perform(OnCirc,IntAna2d_Conic(Sol->Ellipse())); } if (Intp.IsDone()) { if ((!Intp.IsEmpty())&&(!Intp.ParallelElements())&& (!Intp.IdenticalElements())) { for (Standard_Integer j = 1 ; j <= Intp.NbPoints() ; j++) { gp_Pnt2d Center(Intp.Point(j).Value()); Standard_Real dist1 = center1.Distance(Center); Standard_Integer nbsol = 1; Standard_Boolean ok = Standard_False; if (Qualified1.IsEnclosed()) { if (dist1-C1.Radius() <= Tol) { ok = Standard_True; Radius(1) = Abs(C1.Radius()-dist1); } } else if (Qualified1.IsOutside()) { if (C1.Radius()-dist1 <= Tol) { ok = Standard_True; Radius(1) = Abs(C1.Radius()-dist1); } } else if (Qualified1.IsEnclosing()) { ok = Standard_True; Radius(1) = C1.Radius()+dist1; } else if (Qualified1.IsUnqualified()) { ok = Standard_True; nbsol = 2; Radius(1) = Abs(C1.Radius()-dist1); Radius(2) = C1.Radius()+dist1; } if (ok) { for (Standard_Integer k = 1 ; k <= nbsol ; k++) { // pop : protection contre le cas center1 == Center if (center1.IsEqual(Center,Precision::Confusion())) { continue; } if (OnCirc.Distance(Center)>Tol) { continue; } if (NbrSol == 4 ) break; NbrSol++; cirsol(NbrSol) = gp_Circ2d(gp_Ax2d(Center,dirx),Radius(k)); // ========================================================== Standard_Real distcc1 = Center.Distance(center1); if (!Qualified1.IsUnqualified()) { qualifier1(NbrSol) = Qualified1.Qualifier(); } else if (Abs(distcc1+Radius(k)-R1) < Tol) { qualifier1(NbrSol) = GccEnt_enclosed; } else if (Abs(distcc1-R1-Radius(k)) < Tol) { qualifier1(NbrSol) = GccEnt_outside; } else { qualifier1(NbrSol) = GccEnt_enclosing; } qualifier2(NbrSol) = GccEnt_noqualifier; if (distcc1 <= Tol && Abs(Radius(k)-C1.Radius()) <= Tol) { TheSame1(NbrSol) = 1; } else { TheSame1(NbrSol) = 0; gp_Dir2d dc1(center1.XY()-Center.XY()); pnttg1sol(NbrSol) = gp_Pnt2d(Center.XY()+ Radius(k)*dc1.XY()); par1sol(NbrSol)=ElCLib::Parameter(cirsol(NbrSol), pnttg1sol(NbrSol)); pararg1(NbrSol)=ElCLib::Parameter(C1,pnttg1sol(NbrSol)); } TheSame2(NbrSol) = 0; pntcen(NbrSol) = Center; pnttg2sol(NbrSol) = Point2; pararg2(NbrSol) = 0.; par2sol(NbrSol)=ElCLib::Parameter(cirsol(NbrSol), pnttg2sol(NbrSol)); parcen3(NbrSol)=ElCLib::Parameter(OnCirc,pntcen(NbrSol)); } } } } WellDone = Standard_True; } } } }