#ifndef FILE_SPLINE_HPP #define FILE_SPLINE_HPP /**************************************************************************/ /* File: spline.hpp */ /* Author: Joachim Schoeberl */ /* Date: 24. Jul. 96 */ /**************************************************************************/ namespace netgen { /* Spline curves for 2D mesh generation */ /// Geometry point template < int D > class GeomPoint : public Point { public: /// refinement factor at point double refatpoint; /// max mesh-size at point double hmax; /// hp-refinement bool hpref; /// GeomPoint () { ; } /// GeomPoint (const Point & ap, double aref = 1, bool ahpref=false) : Point(ap), refatpoint(aref), hmax(1e99), hpref(ahpref) { ; } }; /// base class for 2d - segment template < int D > class SplineSeg { public: SplineSeg () { ; } /// virtual ~SplineSeg() { ; } /// calculates length of curve virtual double Length () const; /// returns point at curve, 0 <= t <= 1 virtual Point GetPoint (double t) const = 0; /// returns a (not necessarily unit-length) tangent vector for 0 <= t <= 1 virtual Vec GetTangent (const double t) const { cerr << "GetTangent not implemented for spline base-class" << endl; Vec dummy; return dummy; } virtual void GetDerivatives (const double t, Point & point, Vec & first, Vec & second) const { double eps = 1e-6; point = GetPoint (t); Point pl = GetPoint (t-eps); Point pr = GetPoint (t+eps); first = 1.0/(2*eps) * (pr-pl); second = 1.0/sqr(eps) * ( (pr-point)+(pl-point)); } /// returns initial point on curve virtual const GeomPoint & StartPI () const = 0; /// returns terminal point on curve virtual const GeomPoint & EndPI () const = 0; /** writes curve description for fepp: for implicitly given quadratic curves, the 6 coefficients of the polynomial $$ a x^2 + b y^2 + c x y + d x + e y + f = 0 $$ are written to ost */ void PrintCoeff (ostream & ost) const; virtual void GetCoeff (Vector & coeffs) const = 0; virtual void GetPoints (int n, Array > & points) const; /** calculates (2D) lineintersections: for lines $$ a x + b y + c = 0 $$ the interecting points are calculated and stored in points */ virtual void LineIntersections (const double a, const double b, const double c, Array < Point > & points, const double eps) const {points.SetSize(0);} virtual double MaxCurvature(void) const = 0; virtual string GetType(void) const {return "splinebase";} virtual void Project (const Point point, Point & point_on_curve, double & t) const { cerr << "Project not implemented for spline base-class" << endl;} virtual void GetRawData (Array & data) const { cerr << "GetRawData not implemented for spline base-class" << endl;} }; /// Straight line form p1 to p2 template< int D > class LineSeg : public SplineSeg { /// GeomPoint p1, p2; public: /// LineSeg (const GeomPoint & ap1, const GeomPoint & ap2); /// virtual double Length () const; /// inline virtual Point GetPoint (double t) const; /// virtual Vec GetTangent (const double t) const; virtual void GetDerivatives (const double t, Point & point, Vec & first, Vec & second) const; /// virtual const GeomPoint & StartPI () const { return p1; }; /// virtual const GeomPoint & EndPI () const { return p2; } /// virtual void GetCoeff (Vector & coeffs) const; virtual string GetType(void) const {return "line";} virtual void LineIntersections (const double a, const double b, const double c, Array < Point > & points, const double eps) const; virtual double MaxCurvature(void) const {return 0;} virtual void Project (const Point point, Point & point_on_curve, double & t) const; virtual void GetRawData (Array & data) const; }; /// curve given by a rational, quadratic spline (including ellipses) template< int D > class SplineSeg3 : public SplineSeg { /// GeomPoint p1, p2, p3; double weight; mutable double proj_latest_t; public: /// SplineSeg3 (const GeomPoint & ap1, const GeomPoint & ap2, const GeomPoint & ap3); /// inline virtual Point GetPoint (double t) const; /// virtual Vec GetTangent (const double t) const; DLL_HEADER virtual void GetDerivatives (const double t, Point & point, Vec & first, Vec & second) const; /// virtual const GeomPoint & StartPI () const { return p1; }; /// virtual const GeomPoint & EndPI () const { return p3; } /// virtual void GetCoeff (Vector & coeffs) const; virtual string GetType(void) const {return "spline3";} const GeomPoint & TangentPoint (void) const { return p2; } DLL_HEADER virtual void LineIntersections (const double a, const double b, const double c, Array < Point > & points, const double eps) const; DLL_HEADER virtual double MaxCurvature(void) const; DLL_HEADER virtual void Project (const Point point, Point & point_on_curve, double & t) const; DLL_HEADER virtual void GetRawData (Array & data) const; }; // Gundolf Haase 8/26/97 /// A circle template < int D > class CircleSeg : public SplineSeg { /// private: GeomPoint p1, p2, p3; //const GeomPoint &p1, &p2, &p3; Point pm; double radius, w1,w3; public: /// CircleSeg (const GeomPoint & ap1, const GeomPoint & ap2, const GeomPoint & ap3); /// virtual Point GetPoint (double t) const; /// virtual const GeomPoint & StartPI () const { return p1; } /// virtual const GeomPoint & EndPI () const { return p3; } /// virtual void GetCoeff (Vector & coeffs) const; /// double Radius() const { return radius; } /// double StartAngle() const { return w1; } /// double EndAngle() const { return w3; } /// const Point & MidPoint(void) const {return pm; } virtual string GetType(void) const {return "circle";} virtual void LineIntersections (const double a, const double b, const double c, Array < Point > & points, const double eps) const; virtual double MaxCurvature(void) const {return 1./radius;} }; /// template class DiscretePointsSeg : public SplineSeg { Array > pts; GeomPoint p1n, p2n; public: /// DiscretePointsSeg (const Array > & apts); /// virtual ~DiscretePointsSeg (); /// virtual Point GetPoint (double t) const; /// virtual const GeomPoint & StartPI () const { return p1n; }; /// virtual const GeomPoint & EndPI () const { return p2n; } /// virtual void GetCoeff (Vector & coeffs) const {;} virtual double MaxCurvature(void) const {return 1;} }; // calculates length of spline-curve template double SplineSeg :: Length () const { int n = 100; double dt = 1.0 / n; Point pold = GetPoint (0); double l = 0; for (int i = 1; i <= n; i++) { Point p = GetPoint (i * dt); l += Dist (p, pold); pold = p; } return l; } template void SplineSeg :: GetPoints (int n, Array > & points) const { points.SetSize (n); if (n >= 2) for (int i = 0; i < n; i++) points[i] = GetPoint(double(i) / (n-1)); } template void SplineSeg :: PrintCoeff (ostream & ost) const { Vector u(6); GetCoeff(u); for ( int i=0; i<6; i++) ost << u[i] << " "; ost << endl; } /* Implementation of line-segment from p1 to p2 */ template LineSeg :: LineSeg (const GeomPoint & ap1, const GeomPoint & ap2) : p1(ap1), p2(ap2) { ; } template inline Point LineSeg :: GetPoint (double t) const { return p1 + t * (p2 - p1); } template Vec LineSeg :: GetTangent (const double t) const { return p2-p1; } template void LineSeg :: GetDerivatives (const double t, Point & point, Vec & first, Vec & second) const { first = p2 - p1; point = p1 + t * first; second = 0; } template double LineSeg :: Length () const { return Dist (p1, p2); } template void LineSeg :: GetCoeff (Vector & coeffs) const { coeffs.SetSize(6); double dx = p2(0) - p1(0); double dy = p2(1) - p1(1); coeffs[0] = coeffs[1] = coeffs[2] = 0; coeffs[3] = -dy; coeffs[4] = dx; coeffs[5] = -dx * p1(1) + dy * p1(0); } template void LineSeg :: LineIntersections (const double a, const double b, const double c, Array < Point > & points, const double eps) const { points.SetSize(0); double denom = -a*p2(0)+a*p1(0)-b*p2(1)+b*p1(1); if(fabs(denom) < 1e-20) return; double t = (a*p1(0)+b*p1(1)+c)/denom; if((t > -eps) && (t < 1.+eps)) points.Append(GetPoint(t)); } template void LineSeg :: Project (const Point point, Point & point_on_curve, double & t) const { Vec v = p2-p1; double l = v.Length(); v *= 1./l; t = (point-p1)*v; if(t<0) t = 0; if(t>l) t = l; point_on_curve = p1+t*v; t *= 1./l; } template void LineSeg :: GetRawData (Array & data) const { data.Append(2); for(int i=0; i double SplineSeg3 :: MaxCurvature(void) const { Vec v1 = p1-p2; Vec v2 = p3-p2; double l1 = v1.Length(); double l2 = v2.Length(); (*testout) << "v1 " << v1 << " v2 " << v2 << endl; double cosalpha = v1*v2/(l1*l2); (*testout) << "cosalpha " << cosalpha << endl; return sqrt(cosalpha + 1.)/(min2(l1,l2)*(1.-cosalpha)); } */ //######################################################################## // circlesegment template CircleSeg :: CircleSeg (const GeomPoint & ap1, const GeomPoint & ap2, const GeomPoint & ap3) : p1(ap1), p2(ap2), p3(ap3) { Vec v1,v2; v1 = p1 - p2; v2 = p3 - p2; Point p1t(p1+v1); Point p2t(p3+v2); // works only in 2D!!!!!!!!! Line2d g1t,g2t; g1t.P1() = Point<2>(p1(0),p1(1)); g1t.P2() = Point<2>(p1t(0),p1t(1)); g2t.P1() = Point<2>(p3(0),p3(1)); g2t.P2() = Point<2>(p2t(0),p2t(1)); Point<2> mp = CrossPoint (g1t,g2t); pm(0) = mp(0); pm(1) = mp(1); radius = Dist(pm,StartPI()); Vec2d auxv; auxv.X() = p1(0)-pm(0); auxv.Y() = p1(1)-pm(1); w1 = Angle(auxv); auxv.X() = p3(0)-pm(0); auxv.Y() = p3(1)-pm(1); w3 = Angle(auxv); if ( fabs(w3-w1) > M_PI ) { if ( w3>M_PI ) w3 -= 2*M_PI; if ( w1>M_PI ) w1 -= 2*M_PI; } } /* template Point CircleSeg :: GetPoint (double t) const { if (t >= 1.0) { return p3; } double phi = StartAngle() + t*(EndAngle()-StartAngle()); Vec tmp(cos(phi),sin(phi)); return pm + Radius()*tmp; } */ template<> inline Point<3> CircleSeg<3> :: GetPoint (double t) const { // not really useful, but keep it as it was ... if (t >= 1.0) { return p3; } double phi = StartAngle() + t*(EndAngle()-StartAngle()); Vec<3> tmp(cos(phi),sin(phi),0); return pm + Radius()*tmp; } template<> inline Point<2> CircleSeg<2> :: GetPoint (double t) const { if (t >= 1.0) { return p3; } double phi = StartAngle() + t*(EndAngle()-StartAngle()); Vec<2> tmp(cos(phi),sin(phi)); return pm + Radius()*tmp; } template void CircleSeg :: GetCoeff (Vector & coeff) const { coeff[0] = coeff[1] = 1.0; coeff[2] = 0.0; coeff[3] = -2.0 * pm[0]; coeff[4] = -2.0 * pm[1]; coeff[5] = sqr(pm[0]) + sqr(pm[1]) - sqr(Radius()); } template DiscretePointsSeg :: DiscretePointsSeg (const Array > & apts) : pts (apts) { for(int i=0; i DiscretePointsSeg :: ~DiscretePointsSeg () { ; } template Point DiscretePointsSeg :: GetPoint (double t) const { double t1 = t * (pts.Size()-1); int segnr = int(t1); if (segnr < 0) segnr = 0; if (segnr >= pts.Size()) segnr = pts.Size()-1; double rest = t1 - segnr; return pts[segnr] + rest*Vec(pts[segnr+1]-pts[segnr]); } // ************************************* // Template for B-Splines of order ORDER // thx to Gerhard Kitzler // ************************************* template class BSplineSeg : public SplineSeg { Array > pts; GeomPoint p1n, p2n; Array ti; public: /// BSplineSeg (const Array > & apts); /// virtual ~BSplineSeg(); /// virtual Point GetPoint (double t) const; /// virtual const GeomPoint & StartPI () const { return p1n; }; /// virtual const GeomPoint & EndPI () const { return p2n; } /// virtual void GetCoeff (Vector & coeffs) const {;} virtual double MaxCurvature(void) const {return 1;} }; // Constructor template BSplineSeg :: BSplineSeg (const Array > & apts) : pts (apts) { /* for(int i=0; i BSplineSeg :: ~BSplineSeg () { ; } // GetPoint Method...(evaluation of BSpline Curve) template Point BSplineSeg :: GetPoint (double t_in) const { int m=pts.Size()+ORDER; double t = t_in * (m-2*ORDER+1); double b[ORDER]; int interval_nr = int(t)+ORDER-1; if (interval_nr < ORDER-1) interval_nr = ORDER-1; if (interval_nr > m-ORDER-1) interval_nr = m-ORDER-1; b[ORDER-1] = 1.0; for(int degree=1;degree p = 0.0; for(int i=0; i < ORDER; i++) p += b[i] * Vec (pts[i+interval_nr-ORDER+1]); return p; } } #endif