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https://github.com/NGSolve/netgen.git
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737 lines
17 KiB
C++
737 lines
17 KiB
C++
#ifdef OCCGEOMETRY
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#include <mystdlib.h>
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#include <occgeom.hpp>
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#include <meshing.hpp>
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#include <GeomLProp_SLProps.hxx>
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#include <ShapeAnalysis_Surface.hxx>
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namespace netgen
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{
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#include "occmeshsurf.hpp"
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bool glob_testout(false);
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void OCCSurface :: GetNormalVector (const Point<3> & p,
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const PointGeomInfo & geominfo,
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Vec<3> & n) const
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{
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gp_Pnt pnt;
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gp_Vec du, dv;
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/*
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double gu = geominfo.u;
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double gv = geominfo.v;
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if (fabs (gu) < 1e-3) gu = 0;
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if (fabs (gv) < 1e-3) gv = 0;
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occface->D1(gu,gv,pnt,du,dv);
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*/
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/*
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occface->D1(geominfo.u,geominfo.v,pnt,du,dv);
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n = Cross (Vec<3>(du.X(), du.Y(), du.Z()),
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Vec<3>(dv.X(), dv.Y(), dv.Z()));
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n.Normalize();
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*/
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GeomLProp_SLProps lprop(occface,geominfo.u,geominfo.v,1,1e-5);
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double setu=geominfo.u,setv=geominfo.v;
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if(lprop.D1U().Magnitude() < 1e-5 || lprop.D1V().Magnitude() < 1e-5)
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{
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double ustep = 0.01*(umax-umin);
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double vstep = 0.01*(vmax-vmin);
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n=0;
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while(setu < umax && (lprop.D1U().Magnitude() < 1e-5 || lprop.D1V().Magnitude() < 1e-5))
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setu += ustep;
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if(setu < umax)
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{
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lprop.SetParameters(setu,setv);
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n(0)+=lprop.Normal().X();
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n(1)+=lprop.Normal().Y();
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n(2)+=lprop.Normal().Z();
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}
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setu = geominfo.u;
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while(setu > umin && (lprop.D1U().Magnitude() < 1e-5 || lprop.D1V().Magnitude() < 1e-5))
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setu -= ustep;
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if(setu > umin)
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{
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lprop.SetParameters(setu,setv);
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n(0)+=lprop.Normal().X();
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n(1)+=lprop.Normal().Y();
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n(2)+=lprop.Normal().Z();
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}
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setu = geominfo.u;
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while(setv < vmax && (lprop.D1U().Magnitude() < 1e-5 || lprop.D1V().Magnitude() < 1e-5))
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setv += ustep;
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if(setv < vmax)
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{
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lprop.SetParameters(setu,setv);
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n(0)+=lprop.Normal().X();
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n(1)+=lprop.Normal().Y();
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n(2)+=lprop.Normal().Z();
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}
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setv = geominfo.v;
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while(setv > vmin && (lprop.D1U().Magnitude() < 1e-5 || lprop.D1V().Magnitude() < 1e-5))
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setv -= ustep;
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if(setv > vmin)
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{
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lprop.SetParameters(setu,setv);
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n(0)+=lprop.Normal().X();
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n(1)+=lprop.Normal().Y();
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n(2)+=lprop.Normal().Z();
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}
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setv = geominfo.v;
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n.Normalize();
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}
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else
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{
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n(0)=lprop.Normal().X();
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n(1)=lprop.Normal().Y();
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n(2)=lprop.Normal().Z();
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}
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if(glob_testout)
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{
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(*testout) << "u " << geominfo.u << " v " << geominfo.v
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<< " du " << lprop.D1U().X() << " "<< lprop.D1U().Y() << " "<< lprop.D1U().Z()
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<< " dv " << lprop.D1V().X() << " "<< lprop.D1V().Y() << " "<< lprop.D1V().Z() << endl;
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}
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if (orient == TopAbs_REVERSED) n = -1*n;
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// (*testout) << "GetNormalVector" << endl;
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}
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void OCCSurface :: DefineTangentialPlane (const Point<3> & ap1,
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const PointGeomInfo & geominfo1,
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const Point<3> & ap2,
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const PointGeomInfo & geominfo2)
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{
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if (projecttype == PLANESPACE)
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{
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p1 = ap1; p2 = ap2;
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//cout << "p1 = " << p1 << endl;
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//cout << "p2 = " << p2 << endl;
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GetNormalVector (p1, geominfo1, ez);
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ex = p2 - p1;
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ex -= (ex * ez) * ez;
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ex.Normalize();
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ey = Cross (ez, ex);
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GetNormalVector (p2, geominfo2, n2);
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nmid = 0.5*(n2+ez);
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ez = nmid;
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ez.Normalize();
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ex = (p2 - p1).Normalize();
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ez -= (ez * ex) * ex;
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ez.Normalize();
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ey = Cross (ez, ex);
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nmid = ez;
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//cout << "ex " << ex << " ey " << ey << " ez " << ez << endl;
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}
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else
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{
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if ( (geominfo1.u < umin) ||
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(geominfo1.u > umax) ||
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(geominfo2.u < umin) ||
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(geominfo2.u > umax) ||
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(geominfo1.v < vmin) ||
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(geominfo1.v > vmax) ||
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(geominfo2.v < vmin) ||
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(geominfo2.v > vmax) ) throw UVBoundsException();
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p1 = ap1; p2 = ap2;
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psp1 = Point<2>(geominfo1.u, geominfo1.v);
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psp2 = Point<2>(geominfo2.u, geominfo2.v);
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Vec<3> n;
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GetNormalVector (p1, geominfo1, n);
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gp_Pnt pnt;
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gp_Vec du, dv;
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occface->D1 (geominfo1.u, geominfo1.v, pnt, du, dv);
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DenseMatrix D1(3,2), D1T(2,3), DDTinv(2,2);
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D1(0,0) = du.X(); D1(1,0) = du.Y(); D1(2,0) = du.Z();
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D1(0,1) = dv.X(); D1(1,1) = dv.Y(); D1(2,1) = dv.Z();
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/*
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(*testout) << "DefineTangentialPlane" << endl
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<< "---------------------" << endl;
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(*testout) << "D1 = " << endl << D1 << endl;
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*/
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Transpose (D1, D1T);
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DenseMatrix D1TD1(3,3);
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D1TD1 = D1T*D1;
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if (D1TD1.Det() == 0) throw SingularMatrixException();
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CalcInverse (D1TD1, DDTinv);
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DenseMatrix Y(3,2);
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Vec<3> y1 = (ap2-ap1).Normalize();
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Vec<3> y2 = Cross(n, y1).Normalize();
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for (int i = 0; i < 3; i++)
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{
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Y(i,0) = y1(i);
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Y(i,1) = y2(i);
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}
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DenseMatrix A(2,2);
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A = DDTinv * D1T * Y;
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DenseMatrix Ainv(2,2);
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if (A.Det() == 0) throw SingularMatrixException();
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CalcInverse (A, Ainv);
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for (int i = 0; i < 2; i++)
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for (int j = 0; j < 2; j++)
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{
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Amat(i,j) = A(i,j);
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Amatinv(i,j) = Ainv(i,j);
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}
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Vec<2> temp = Amatinv * (psp2-psp1);
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double r = temp.Length();
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// double alpha = -acos (temp(0)/r);
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double alpha = -atan2 (temp(1),temp(0));
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DenseMatrix R(2,2);
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R(0,0) = cos (alpha);
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R(1,0) = -sin (alpha);
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R(0,1) = sin (alpha);
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R(1,1) = cos (alpha);
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A = A*R;
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if (A.Det() == 0) throw SingularMatrixException();
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CalcInverse (A, Ainv);
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for (int i = 0; i < 2; i++)
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for (int j = 0; j < 2; j++)
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{
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Amat(i,j) = A(i,j);
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Amatinv(i,j) = Ainv(i,j);
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}
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temp = Amatinv * (psp2-psp1);
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};
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}
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void OCCSurface :: ToPlane (const Point<3> & p3d,
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const PointGeomInfo & geominfo,
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Point<2> & pplane,
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double h, int & zone) const
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{
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if (projecttype == PLANESPACE)
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{
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Vec<3> p1p, n;
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GetNormalVector (p3d, geominfo, n);
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p1p = p3d - p1;
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pplane(0) = (p1p * ex) / h;
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pplane(1) = (p1p * ey) / h;
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if (n * nmid < 0)
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zone = -1;
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else
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zone = 0;
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/*
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if(zone == -1)
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{
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(*testout) << "zone = -1 for " << p3d << " 2D: " << pplane << " n " << n << " nmid " << nmid << endl;
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glob_testout = true;
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GetNormalVector (p3d, geominfo, n);
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glob_testout = false;
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}
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*/
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}
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else
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{
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pplane = Point<2>(geominfo.u, geominfo.v);
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// (*testout) << "(u,v) = " << geominfo.u << ", " << geominfo.v << endl;
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pplane = Point<2> (1/h * (Amatinv * (pplane-psp1)));
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// pplane = Point<2> (h * (Amatinv * (pplane-psp1)));
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// pplane = Point<2> (1/h * ((pplane-psp1)));
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zone = 0;
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};
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}
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void OCCSurface :: FromPlane (const Point<2> & pplane,
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Point<3> & p3d,
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PointGeomInfo & gi,
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double h)
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{
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if (projecttype == PLANESPACE)
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{
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// cout << "2d : " << pplane << endl;
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p3d = p1 + (h * pplane(0)) * ex + (h * pplane(1)) * ey;
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// cout << "3d : " << p3d << endl;
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Project (p3d, gi);
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// cout << "proj : " << p3d << endl;
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}
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else
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{
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// Point<2> pspnew = Point<2>(1/h * (Amat * Vec<2>(pplane)) + Vec<2>(psp1));
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Point<2> pspnew = Point<2>(h * (Amat * Vec<2>(pplane)) + Vec<2>(psp1));
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// Point<2> pspnew = Point<2>(h * (Vec<2>(pplane)) + Vec<2>(psp1));
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gi.u = pspnew(0);
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gi.v = pspnew(1);
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gi.trignum = 1;
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gp_Pnt val = occface->Value (gi.u, gi.v);
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p3d = Point<3> (val.X(), val.Y(), val.Z());
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};
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}
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void OCCSurface :: Project (Point<3> & p, PointGeomInfo & gi)
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{
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// static int cnt = 0;
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// if (cnt++ % 1000 == 0) cout << "********************************************** OCCSurfce :: Project, cnt = " << cnt << endl;
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gp_Pnt pnt(p(0), p(1), p(2));
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//(*testout) << "pnt = " << pnt.X() << ", " << pnt.Y() << ", " << pnt.Z() << endl;
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/*
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GeomAPI_ProjectPointOnSurf proj(pnt, occface, umin, umax, vmin, vmax);
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if (!proj.NbPoints())
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{
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cout << "Project Point on Surface FAIL" << endl;
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throw UVBoundsException();
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}
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*/
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/*
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cout << "NP = " << proj.NbPoints() << endl;
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for (int i = 1; i <= proj.NbPoints(); i++)
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{
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gp_Pnt pnt2 = proj.Point(i);
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Point<3> p2 = Point<3> (pnt2.X(), pnt2.Y(), pnt2.Z());
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cout << i << ". p = " << p2 << ", dist = " << (p2-p).Length() << endl;
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}
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*/
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/*
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pnt = proj.NearestPoint();
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proj.LowerDistanceParameters (gi.u, gi.v);
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*/
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double u,v;
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Handle( ShapeAnalysis_Surface ) su = new ShapeAnalysis_Surface( occface );
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gp_Pnt2d suval = su->ValueOfUV ( pnt, BRep_Tool::Tolerance( topods_face ) );
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suval.Coord( u, v);
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pnt = occface->Value( u, v );
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//(*testout) << "pnt(proj) = " << pnt.X() << ", " << pnt.Y() << ", " << pnt.Z() << endl;
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gi.u = u;
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gi.v = v;
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gi.trignum = 1;
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p = Point<3> (pnt.X(), pnt.Y(), pnt.Z());
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}
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Meshing2OCCSurfaces :: Meshing2OCCSurfaces (const TopoDS_Shape & asurf,
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const Box<3> & abb, int aprojecttype)
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: Meshing2(mparam, Box<3>(abb.PMin(), abb.PMax())), surface(TopoDS::Face(asurf), aprojecttype)
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{
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;
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}
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void Meshing2OCCSurfaces :: DefineTransformation (const Point3d & p1, const Point3d & p2,
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const PointGeomInfo * geominfo1,
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const PointGeomInfo * geominfo2)
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{
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((OCCSurface&)surface).DefineTangentialPlane (p1, *geominfo1, p2, *geominfo2);
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}
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void Meshing2OCCSurfaces :: TransformToPlain (const Point3d & locpoint,
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const MultiPointGeomInfo & geominfo,
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Point2d & planepoint,
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double h, int & zone)
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{
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Point<2> hp;
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surface.ToPlane (locpoint, geominfo.GetPGI(1), hp, h, zone);
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planepoint.X() = hp(0);
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planepoint.Y() = hp(1);
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}
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int Meshing2OCCSurfaces :: TransformFromPlain (Point2d & planepoint,
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Point3d & locpoint,
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PointGeomInfo & gi,
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double h)
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{
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Point<3> hp;
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Point<2> hp2 (planepoint.X(), planepoint.Y());
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surface.FromPlane (hp2, hp, gi, h);
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locpoint = hp;
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return 0;
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}
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double Meshing2OCCSurfaces :: CalcLocalH (const Point3d & p, double gh) const
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{
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return gh;
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}
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MeshOptimize2dOCCSurfaces :: MeshOptimize2dOCCSurfaces (const OCCGeometry & ageometry)
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: MeshOptimize2d(), geometry(ageometry)
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{
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;
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}
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void MeshOptimize2dOCCSurfaces :: ProjectPoint (INDEX surfind, Point<3> & p) const
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{
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geometry.Project (surfind, p);
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}
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int MeshOptimize2dOCCSurfaces :: ProjectPointGI (INDEX surfind, Point<3> & p, PointGeomInfo & gi) const
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{
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double u = gi.u;
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double v = gi.v;
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Point<3> hp = p;
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if (geometry.FastProject (surfind, hp, u, v))
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{
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p = hp;
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return 1;
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}
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ProjectPoint (surfind, p);
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return CalcPointGeomInfo (surfind, gi, p);
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}
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void MeshOptimize2dOCCSurfaces :: ProjectPoint2 (INDEX surfind, INDEX surfind2,
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Point<3> & p) const
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{
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TopExp_Explorer exp0, exp1;
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bool done = false;
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Handle(Geom_Curve) c;
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for (exp0.Init(geometry.fmap(surfind), TopAbs_EDGE); !done && exp0.More(); exp0.Next())
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for (exp1.Init(geometry.fmap(surfind2), TopAbs_EDGE); !done && exp1.More(); exp1.Next())
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{
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if (TopoDS::Edge(exp0.Current()).IsSame(TopoDS::Edge(exp1.Current())))
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{
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done = true;
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double s0, s1;
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c = BRep_Tool::Curve(TopoDS::Edge(exp0.Current()), s0, s1);
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}
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}
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gp_Pnt pnt(p(0), p(1), p(2));
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GeomAPI_ProjectPointOnCurve proj(pnt, c);
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pnt = proj.NearestPoint();
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p(0) = pnt.X();
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p(1) = pnt.Y();
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p(2) = pnt.Z();
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}
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void MeshOptimize2dOCCSurfaces ::
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GetNormalVector(INDEX surfind, const Point<3> & p, PointGeomInfo & geominfo, Vec<3> & n) const
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{
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gp_Pnt pnt;
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gp_Vec du, dv;
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Handle(Geom_Surface) occface;
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occface = BRep_Tool::Surface(TopoDS::Face(geometry.fmap(surfind)));
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occface->D1(geominfo.u,geominfo.v,pnt,du,dv);
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n = Cross (Vec<3>(du.X(), du.Y(), du.Z()),
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Vec<3>(dv.X(), dv.Y(), dv.Z()));
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n.Normalize();
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if (geometry.fmap(surfind).Orientation() == TopAbs_REVERSED) n = -1*n;
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// GetNormalVector (surfind, p, n);
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}
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void MeshOptimize2dOCCSurfaces ::
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GetNormalVector(INDEX surfind, const Point<3> & p, Vec<3> & n) const
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{
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// static int cnt = 0;
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// if (cnt++ % 1000 == 0) cout << "GetNV cnt = " << cnt << endl;
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Standard_Real u,v;
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gp_Pnt pnt(p(0), p(1), p(2));
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Handle(Geom_Surface) occface;
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occface = BRep_Tool::Surface(TopoDS::Face(geometry.fmap(surfind)));
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|
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/*
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GeomAPI_ProjectPointOnSurf proj(pnt, occface);
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|
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if (proj.NbPoints() < 1)
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{
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cout << "ERROR: OCCSurface :: GetNormalVector: GeomAPI_ProjectPointOnSurf failed!"
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<< endl;
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cout << p << endl;
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return;
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}
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|
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proj.LowerDistanceParameters (u, v);
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*/
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|
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Handle( ShapeAnalysis_Surface ) su = new ShapeAnalysis_Surface( occface );
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gp_Pnt2d suval = su->ValueOfUV ( pnt, BRep_Tool::Tolerance( TopoDS::Face(geometry.fmap(surfind)) ) );
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suval.Coord( u, v);
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pnt = occface->Value( u, v );
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|
|
|
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|
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gp_Vec du, dv;
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occface->D1(u,v,pnt,du,dv);
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|
|
|
/*
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if (!occface->IsCNu (1) || !occface->IsCNv (1))
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(*testout) << "SurfOpt: Differentiation FAIL" << endl;
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|
*/
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|
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n = Cross (Vec3d(du.X(), du.Y(), du.Z()),
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Vec3d(dv.X(), dv.Y(), dv.Z()));
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n.Normalize();
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|
|
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if (geometry.fmap(surfind).Orientation() == TopAbs_REVERSED) n = -1*n;
|
|
}
|
|
|
|
|
|
int MeshOptimize2dOCCSurfaces ::
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CalcPointGeomInfo(int surfind, PointGeomInfo& gi, const Point<3> & p) const
|
|
{
|
|
Standard_Real u,v;
|
|
|
|
gp_Pnt pnt(p(0), p(1), p(2));
|
|
|
|
Handle(Geom_Surface) occface;
|
|
occface = BRep_Tool::Surface(TopoDS::Face(geometry.fmap(surfind)));
|
|
|
|
/*
|
|
GeomAPI_ProjectPointOnSurf proj(pnt, occface);
|
|
|
|
if (proj.NbPoints() < 1)
|
|
{
|
|
cout << "ERROR: OCCSurface :: GetNormalVector: GeomAPI_ProjectPointOnSurf failed!"
|
|
<< endl;
|
|
cout << p << endl;
|
|
return 0;
|
|
}
|
|
|
|
proj.LowerDistanceParameters (u, v);
|
|
*/
|
|
|
|
Handle( ShapeAnalysis_Surface ) su = new ShapeAnalysis_Surface( occface );
|
|
gp_Pnt2d suval = su->ValueOfUV ( pnt, BRep_Tool::Tolerance( TopoDS::Face(geometry.fmap(surfind)) ) );
|
|
suval.Coord( u, v);
|
|
//pnt = occface->Value( u, v );
|
|
|
|
|
|
gi.u = u;
|
|
gi.v = v;
|
|
return 1;
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
|
|
OCCRefinementSurfaces :: OCCRefinementSurfaces (const OCCGeometry & ageometry)
|
|
: Refinement(), geometry(ageometry)
|
|
{
|
|
;
|
|
}
|
|
|
|
OCCRefinementSurfaces :: ~OCCRefinementSurfaces ()
|
|
{
|
|
;
|
|
}
|
|
|
|
/*
|
|
inline double Det3 (double a00, double a01, double a02,
|
|
double a10, double a11, double a12,
|
|
double a20, double a21, double a22)
|
|
{
|
|
return a00*a11*a22 + a01*a12*a20 + a10*a21*a02 - a20*a11*a02 - a10*a01*a22 - a21*a12*a00;
|
|
}
|
|
|
|
bool ProjectToSurface (gp_Pnt & p, Handle(Geom_Surface) surface, double& u, double& v)
|
|
{
|
|
gp_Pnt x = surface->Value (u,v);
|
|
|
|
if (p.SquareDistance(x) <= sqr(PROJECTION_TOLERANCE)) return true;
|
|
|
|
gp_Vec du, dv;
|
|
|
|
surface->D1(u,v,x,du,dv);
|
|
|
|
int count = 0;
|
|
|
|
gp_Pnt xold;
|
|
gp_Vec n;
|
|
double det, lambda, mu;
|
|
|
|
do {
|
|
count++;
|
|
|
|
n = du^dv;
|
|
|
|
det = Det3 (n.X(), du.X(), dv.X(),
|
|
n.Y(), du.Y(), dv.Y(),
|
|
n.Z(), du.Z(), dv.Z());
|
|
|
|
if (det < 1e-15) return false;
|
|
|
|
lambda = Det3 (n.X(), p.X()-x.X(), dv.X(),
|
|
n.Y(), p.Y()-x.Y(), dv.Y(),
|
|
n.Z(), p.Z()-x.Z(), dv.Z())/det;
|
|
|
|
mu = Det3 (n.X(), du.X(), p.X()-x.X(),
|
|
n.Y(), du.Y(), p.Y()-x.Y(),
|
|
n.Z(), du.Z(), p.Z()-x.Z())/det;
|
|
|
|
u += lambda;
|
|
v += mu;
|
|
|
|
xold = x;
|
|
surface->D1(u,v,x,du,dv);
|
|
|
|
} while (xold.SquareDistance(x) > sqr(PROJECTION_TOLERANCE) || count > 50);
|
|
|
|
if (count > 50) return false;
|
|
|
|
p = x;
|
|
|
|
return true;
|
|
}
|
|
*/
|
|
|
|
void OCCRefinementSurfaces ::
|
|
PointBetween (const Point<3> & p1, const Point<3> & p2, double secpoint,
|
|
int surfi,
|
|
const PointGeomInfo & gi1,
|
|
const PointGeomInfo & gi2,
|
|
Point<3> & newp, PointGeomInfo & newgi) const
|
|
{
|
|
Point<3> hnewp;
|
|
hnewp = p1+secpoint*(p2-p1);
|
|
|
|
if (surfi > 0)
|
|
{
|
|
double u = gi1.u+secpoint*(gi2.u-gi1.u);
|
|
double v = gi1.v+secpoint*(gi2.v-gi1.v);
|
|
|
|
auto savept = hnewp;
|
|
if (!geometry.FastProject (surfi, hnewp, u, v) || Dist(hnewp, savept) > Dist(p1,p2))
|
|
{
|
|
// cout << "Fast projection to surface fails! Using OCC projection" << endl;
|
|
hnewp = savept;
|
|
geometry.Project (surfi, hnewp);
|
|
}
|
|
|
|
newgi.trignum = 1;
|
|
newgi.u = u;
|
|
newgi.v = v;
|
|
}
|
|
|
|
newp = hnewp;
|
|
}
|
|
|
|
|
|
void OCCRefinementSurfaces ::
|
|
PointBetween (const Point<3> & p1, const Point<3> & p2, double secpoint,
|
|
int surfi1, int surfi2,
|
|
const EdgePointGeomInfo & ap1,
|
|
const EdgePointGeomInfo & ap2,
|
|
Point<3> & newp, EdgePointGeomInfo & newgi) const
|
|
{
|
|
double s0, s1;
|
|
|
|
Point<3> hnewp = p1+secpoint*(p2-p1);
|
|
gp_Pnt pnt(hnewp(0), hnewp(1), hnewp(2));
|
|
GeomAPI_ProjectPointOnCurve proj(pnt, BRep_Tool::Curve(TopoDS::Edge(geometry.emap(ap1.edgenr)), s0, s1));
|
|
pnt = proj.NearestPoint();
|
|
hnewp = Point<3> (pnt.X(), pnt.Y(), pnt.Z());
|
|
newp = hnewp;
|
|
newgi = ap1;
|
|
};
|
|
|
|
|
|
void OCCRefinementSurfaces :: ProjectToSurface (Point<3> & p, int surfi) const
|
|
{
|
|
if (surfi > 0)
|
|
geometry.Project (surfi, p);
|
|
};
|
|
|
|
void OCCRefinementSurfaces :: ProjectToSurface (Point<3> & p, int surfi, PointGeomInfo & gi) const
|
|
{
|
|
if (surfi > 0)
|
|
if (!geometry.FastProject (surfi, p, gi.u, gi.v))
|
|
{
|
|
cout << "Fast projection to surface fails! Using OCC projection" << endl;
|
|
geometry.Project (surfi, p);
|
|
}
|
|
};
|
|
|
|
|
|
|
|
}
|
|
|
|
|
|
#endif
|