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add elliptic cone csg primitive
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@ -1493,8 +1493,215 @@ namespace netgen
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/// Elliptic Cone
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/// Josephat Kalezhi (kalezhi@cbu.ac.zm)
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/// February 21st, 2018
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///
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EllipticCone :: EllipticCone (const Point<3> & aa, const Vec<3> & avl,
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const Vec<3> & avs, double ah, double avlr)
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{
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a = aa;
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h = ah;
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vlr = avlr;
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if (avl.Length2() >= avs.Length2())
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{
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vl = avl;
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vs = avs;
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}
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else
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{
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vl = avs;
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vs = avl;
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}
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CalcData();
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// Print (cout);
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}
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Primitive * EllipticCone :: CreateDefault ()
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{
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return new EllipticCone (Point<3> (0,0,0), Vec<3> (1,0,0), Vec<3> (0,1,0), 1, 0.5);
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}
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void EllipticCone :: GetPrimitiveData (const char *& classname, Array<double> & coeffs) const
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{
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classname = "ellipticcone";
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coeffs.SetSize (15);
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coeffs.Elem(1) = a(0);
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coeffs.Elem(2) = a(1);
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coeffs.Elem(3) = a(2);
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coeffs.Elem(4) = vl(0);
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coeffs.Elem(5) = vl(1);
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coeffs.Elem(6) = vl(2);
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coeffs.Elem(7) = vs(0);
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coeffs.Elem(8) = vs(1);
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coeffs.Elem(9) = vs(2);
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coeffs.Elem(10) = h;
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coeffs.Elem(11) = vlr;
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}
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void EllipticCone :: SetPrimitiveData (Array<double> & coeffs)
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{
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a(0) = coeffs.Elem(1);
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a(1) = coeffs.Elem(2);
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a(2) = coeffs.Elem(3);
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vl(0) = coeffs.Elem(4);
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vl(1) = coeffs.Elem(5);
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vl(2) = coeffs.Elem(6);
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vs(0) = coeffs.Elem(7);
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vs(1) = coeffs.Elem(8);
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vs(2) = coeffs.Elem(9);
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h = coeffs.Elem(10);
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vlr = coeffs.Elem(11);
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CalcData();
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}
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void EllipticCone :: CalcData ()
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{
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Vec<3> nh = Cross(vl, vs);
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nh.Normalize();
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double lvl = vl.Length();
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double lvs = vs.Length();
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Vec<3> t1vec = lvl*(vlr -1)*(1/h)*nh;
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Vec<3> va (a);
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double t1 = lvl*(1 - (vlr -1)*(1/h)*(va*nh));
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Vec<3> nvl = (1.0/lvl)*vl;
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Vec<3> nvs = (1.0/lvs)*vs;
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double ellipt2 = sqr(lvl/lvs);
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cxx = nvl(0)*nvl(0) + ellipt2*nvs(0)*nvs(0) - t1vec(0)*t1vec(0);
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cyy = nvl(1)*nvl(1) + ellipt2*nvs(1)*nvs(1) - t1vec(1)*t1vec(1);
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czz = nvl(2)*nvl(2) + ellipt2*nvs(2)*nvs(2) - t1vec(2)*t1vec(2);
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cxy = 2*(nvl(0)*nvl(1) + ellipt2*nvs(0)*nvs(1) - t1vec(0)*t1vec(1));
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cxz = 2*(nvl(0)*nvl(2) + ellipt2*nvs(0)*nvs(2) - t1vec(0)*t1vec(2));
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cyz = 2*(nvl(1)*nvl(2) + ellipt2*nvs(1)*nvs(2) - t1vec(1)*t1vec(2));
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Vec<3> v = -2*((va*nvl)*nvl + ellipt2*(va*nvs)*nvs + t1*t1vec);
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cx = v(0);
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cy = v(1);
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cz = v(2);
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c1 = pow(va*nvl,2) + ellipt2*pow(va*nvs,2) - t1*t1;
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double lvltop = vlr*lvl;
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double minlvl = (lvl < lvltop) ? lvl : lvltop;
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double maxlvl = max2( lvl,lvltop);
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cxx /= maxlvl; cyy /= maxlvl; czz /= maxlvl;
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cxy /= maxlvl; cxz /= maxlvl; cyz /= maxlvl;
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cx /= maxlvl; cy /= maxlvl; cz /= maxlvl;
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c1 /= maxlvl;
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}
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INSOLID_TYPE EllipticCone :: BoxInSolid (const BoxSphere<3> & box) const
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{
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double rp, dist;
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Vec<3> cv( box.Center());
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Vec<3> nh = Cross(vl, vs);
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nh.Normalize();
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double lvl = vl.Length();
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Vec<3> t1vec = lvl*(vlr -1)*(1/h)*nh;
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Vec<3> va (a);
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double t1 = lvl*(1 - (vlr -1)*(1/h)*(va*nh));
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rp = cv*t1vec + t1;
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double lvltop = vlr*lvl;
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double maxlvl = max2( lvl,lvltop);
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dist = sqrt( CalcFunctionValue(box.Center())*maxlvl + rp*rp) - rp;
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if (dist - box.Diam() > 0) return IS_OUTSIDE;
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if (dist + box.Diam() < 0) return IS_INSIDE;
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return DOES_INTERSECT;
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}
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double EllipticCone :: HesseNorm () const
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{
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return 1.0/min(vs.Length2 (),vl.Length2());
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}
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double EllipticCone :: MaxCurvature () const
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{
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double a = vs.Length();
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double b = vl.Length();
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return max2(b/(a*a),a/(b*b));
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}
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double EllipticCone :: MaxCurvatureLoc (const Point<3> & c,
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double rad) const
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{
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#ifdef JOACHIMxxx
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cout << "max curv local" << endl;
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return 0.02;
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#endif
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// saubere Loesung wird noch notwendig !!!
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double a = vs.Length();
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double b = vl.Length();
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return max2(b/(a*a),a/(b*b));
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}
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Point<3> EllipticCone :: GetSurfacePoint () const
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{
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return a + vl;
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}
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void EllipticCone :: GetTriangleApproximation
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(TriangleApproximation & tas,
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const Box<3> & boundingbox, double facets) const
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{
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int i, j;
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double lg, bg;
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int n = int(facets) + 1;
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Vec<3> nh = Cross(vl, vs);
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nh.Normalize();
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Vec<3> vh = h*nh;
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double lvl = vl.Length();
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double lvs = vs.Length();
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Vec<3> nvl = (1.0/lvl)*vl;
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Vec<3> nvs = (1.0/lvs)*vs;
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for ( j = 0; j <= n; j++ )
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for (i = 0; i <= n; i++)
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{
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lg = 2 *M_PI * double (i) /n;
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bg = double(j) /n;
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Point<3> p = a + (bg *vh)
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+ (( lvl*(1 + (vlr -1)*bg) * cos(lg)) * nvl)
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+ (( lvs*(1 + (vlr -1)*bg)* sin(lg) ) * nvs);
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tas.AddPoint (p);
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}
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for ( j = 0; j < n; j++)
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for ( i = 0; i < n; i++)
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{
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int pi = i + (n+1) * j;
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tas.AddTriangle (TATriangle (0, pi, pi+1, pi+n+2));
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tas.AddTriangle (TATriangle (0, pi, pi+n+2, pi+n+1));
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}
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}
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@ -365,10 +365,46 @@ namespace netgen
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};
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///
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/// Elliptic Cone
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/// Josephat Kalezhi (kalezhi@cbu.ac.zm)
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/// February 21st, 2018
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///
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///
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class EllipticCone : public QuadraticSurface
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{
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Point<3> a;
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Vec<3> vl, vs;
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double h, vlr;
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public:
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///
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EllipticCone (const Point<3> & aa, const Vec<3> & avl,
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const Vec<3> & avs, double ah, double avlr);
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static Primitive * CreateDefault ();
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virtual void GetPrimitiveData (const char *& classname, Array<double> & coeffs) const;
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virtual void SetPrimitiveData (Array<double> & coeffs);
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///
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virtual INSOLID_TYPE BoxInSolid (const BoxSphere<3> & box) const;
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///
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virtual double HesseNorm () const;
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virtual double MaxCurvature () const;
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virtual double MaxCurvatureLoc (const Point<3> & /* c */ ,
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double /* rad */) const;
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///
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virtual Point<3> GetSurfacePoint () const;
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virtual void GetTriangleApproximation (TriangleApproximation & tas,
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const Box<3> & bbox,
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double facets) const;
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private:
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void CalcData();
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};
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/** Torus
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@ -477,6 +477,15 @@ namespace netgen
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delete_them.Append(cone);
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}
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else if(classname == "ellipticcone")
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{
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EllipticCone * ellipticcone = new EllipticCone(dummypoint,dummyvec,dummyvec,dummydouble,dummydouble);
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ellipticcone->SetPrimitiveData(coeffs);
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AddSurface(ellipticcone);
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delete_them.Append(ellipticcone);
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}
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else if(classname == "extrusionface")
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{
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ExtrusionFace * ef =
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@ -39,6 +39,7 @@ namespace netgen
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{ TOK_SPHERE, "sphere" },
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{ TOK_CYLINDER, "cylinder" },
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{ TOK_CONE, "cone" },
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{ TOK_ELLIPTICCONE, "ellipticcone" },
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{ TOK_ELLIPTICCYLINDER, "ellipticcylinder" },
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{ TOK_ELLIPSOID, "ellipsoid" },
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{ TOK_ORTHOBRICK, "orthobrick" },
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@ -327,7 +328,19 @@ namespace netgen
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return new Solid (surf);
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}
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case TOK_ELLIPTICCONE:
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{
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Point<3> a;
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Vec<3> vl, vs;
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double h, vlr;
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scan.ReadNext();
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scan >> '(' >> a >> ';' >> vl >> ';' >> vs >> ';' >> h >>';' >> vlr >> ')';
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OneSurfacePrimitive * surf = new EllipticCone ( a, vl, vs, h, vlr );
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geom->AddSurfaces (surf);
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return new Solid (surf);
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}
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case TOK_SPHERE:
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{
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@ -27,7 +27,7 @@ namespace netgen
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enum PRIMITIVE_TYPE
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{
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TOK_SPHERE = 1, TOK_CYLINDER, TOK_PLANE, TOK_ELLIPTICCYLINDER,
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TOK_ELLIPSOID, TOK_CONE,
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TOK_ELLIPSOID, TOK_CONE, TOK_ELLIPTICCONE,
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TOK_ORTHOBRICK, TOK_POLYHEDRON,
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TOK_TORUS,
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TOK_TUBE, TOK_GENCYL, TOK_EXTRUSION, TOK_REVOLUTION,
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