mirror of
https://github.com/NGSolve/netgen.git
synced 2024-12-31 00:00:33 +05:00
361 lines
6.0 KiB
C++
361 lines
6.0 KiB
C++
/*
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Spline curve for Mesh generator
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*/
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#include <mystdlib.h>
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#include <csg.hpp>
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#include <linalg.hpp>
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#include <meshing.hpp>
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namespace netgen
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{
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#include "spline.hpp"
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/*
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template<> void SplineSeg3<2> :: Project (const Point<2> point, Point<2> & point_on_curve, double & t) const
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{
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double t_old = 0;
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t = 0.5;
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Point<2> phi;
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Vec<2> phip,phipp,phimp;
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int i=0;
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while(fabs(t-t_old) > 1e-8 && i<10)
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{
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GetDerivatives(t,phi,phip,phipp);
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t_old = t;
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phimp = phi-point;
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t = min2(max2(t-(phip*phimp)/(phipp*phimp + phip*phip),0.),1.);
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i++;
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}
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if(i<10)
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{
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point_on_curve = GetPoint(t);
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double dist = Dist(point,point_on_curve);
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phi = GetPoint(0);
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double auxdist = Dist(phi,point);
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if(auxdist < dist)
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{
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t = 0.;
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point_on_curve = phi;
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dist = auxdist;
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}
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phi = GetPoint(1);
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auxdist = Dist(phi,point);
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if(auxdist < dist)
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{
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t = 1.;
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point_on_curve = phi;
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dist = auxdist;
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}
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}
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else
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{
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double t0 = 0;
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double t1 = 0.5;
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double t2 = 1.;
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double d0,d1,d2;
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//(*testout) << "2d newtonersatz" << endl;
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while(t2-t0 > 1e-8)
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{
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phi = GetPoint(t0); d0 = Dist(phi,point);
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phi = GetPoint(t1); d1 = Dist(phi,point);
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phi = GetPoint(t2); d2 = Dist(phi,point);
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double a = (2.*d0 - 4.*d1 +2.*d2)/pow(t2-t0,2);
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if(a <= 0)
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{
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if(d0 < d2)
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t2 -= 0.3*(t2-t0);
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else
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t0 += 0.3*(t2-t0);
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t1 = 0.5*(t2+t0);
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}
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else
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{
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double b = (d1-d0-a*(t1*t1-t0*t0))/(t1-t0);
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double auxt1 = -0.5*b/a;
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if(auxt1 < t0)
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{
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t2 -= 0.4*(t2-t0);
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t0 = max2(0.,t0-0.1*(t2-t0));
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}
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else if (auxt1 > t2)
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{
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t0 += 0.4*(t2-t0);
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t2 = min2(1.,t2+0.1*(t2-t0));
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}
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else
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{
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t1 = auxt1;
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auxt1 = 0.25*(t2-t0);
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t0 = max2(0.,t1-auxt1);
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t2 = min2(1.,t1+auxt1);
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}
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t1 = 0.5*(t2+t0);
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}
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}
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phi = GetPoint(t0); d0 = Dist(phi,point);
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phi = GetPoint(t1); d1 = Dist(phi,point);
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phi = GetPoint(t2); d2 = Dist(phi,point);
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double mind = d0;
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t = t0;
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if(d1 < mind)
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{
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t = t1;
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mind = d1;
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}
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if(d2 < mind)
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{
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t = t2;
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mind = d2;
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}
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point_on_curve = GetPoint(t);
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}
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}
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template<> void SplineSeg3<3> :: Project (const Point<3> point, Point<3> & point_on_curve, double & t) const
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{
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double t_old = -1;
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if(proj_latest_t > 0. && proj_latest_t < 1.)
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t = proj_latest_t;
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else
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t = 0.5;
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Point<3> phi;
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Vec<3> phip,phipp,phimp;
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int i=0;
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while(fabs(t-t_old) > 1e-8 && t > -0.5 && t < 1.5 && i<10)
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{
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GetDerivatives(t,phi,phip,phipp);
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t_old = t;
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phimp = phi-point;
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//t = min2(max2(t-(phip*phimp)/(phipp*phimp + phip*phip),0.),1.);
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t -= (phip*phimp)/(phipp*phimp + phip*phip);
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i++;
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}
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//if(i<10 && t > 0. && t < 1.)
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if(i<10 && t > -0.4 && t < 1.4)
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{
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if(t < 0)
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t = 0.;
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if(t > 1)
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t = 1.;
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point_on_curve = GetPoint(t);
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double dist = Dist(point,point_on_curve);
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phi = GetPoint(0);
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double auxdist = Dist(phi,point);
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if(auxdist < dist)
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{
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t = 0.;
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point_on_curve = phi;
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dist = auxdist;
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}
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phi = GetPoint(1);
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auxdist = Dist(phi,point);
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if(auxdist < dist)
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{
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t = 1.;
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point_on_curve = phi;
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dist = auxdist;
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}
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}
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else
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{
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double t0 = 0;
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double t1 = 0.5;
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double t2 = 1.;
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double d0,d1,d2;
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//(*testout) << "newtonersatz" << endl;
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while(t2-t0 > 1e-8)
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{
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phi = GetPoint(t0); d0 = Dist(phi,point);
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phi = GetPoint(t1); d1 = Dist(phi,point);
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phi = GetPoint(t2); d2 = Dist(phi,point);
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double a = (2.*d0 - 4.*d1 +2.*d2)/pow(t2-t0,2);
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if(a <= 0)
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{
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if(d0 < d2)
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t2 -= 0.3*(t2-t0);
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else
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t0 += 0.3*(t2-t0);
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t1 = 0.5*(t2+t0);
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}
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else
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{
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double b = (d1-d0-a*(t1*t1-t0*t0))/(t1-t0);
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double auxt1 = -0.5*b/a;
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if(auxt1 < t0)
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{
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t2 -= 0.4*(t2-t0);
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t0 = max2(0.,t0-0.1*(t2-t0));
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}
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else if (auxt1 > t2)
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{
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t0 += 0.4*(t2-t0);
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t2 = min2(1.,t2+0.1*(t2-t0));
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}
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else
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{
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t1 = auxt1;
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auxt1 = 0.25*(t2-t0);
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t0 = max2(0.,t1-auxt1);
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t2 = min2(1.,t1+auxt1);
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}
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t1 = 0.5*(t2+t0);
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}
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}
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phi = GetPoint(t0); d0 = Dist(phi,point);
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phi = GetPoint(t1); d1 = Dist(phi,point);
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phi = GetPoint(t2); d2 = Dist(phi,point);
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double mind = d0;
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t = t0;
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if(d1 < mind)
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{
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t = t1;
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mind = d1;
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}
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if(d2 < mind)
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{
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t = t2;
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mind = d2;
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}
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point_on_curve = GetPoint(t);
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}
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//(*testout) << " latest_t " << proj_latest_t << " t " << t << endl;
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proj_latest_t = t;
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}
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*/
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void CalcPartition (double l, double h, double r1, double r2,
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double ra, double elto0, Array<double> & points)
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{
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int i, j, n, nel;
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double sum, t, dt, fun, fperel, oldf, f;
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n = 1000;
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points.SetSize (0);
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sum = 0;
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dt = l / n;
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t = 0.5 * dt;
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for (i = 1; i <= n; i++)
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{
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fun = min3 (h/ra, t/elto0 + h/r1, (l-t)/elto0 + h/r2);
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sum += dt / fun;
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t += dt;
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}
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nel = int (sum+1);
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fperel = sum / nel;
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points.Append (0);
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i = 1;
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oldf = 0;
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t = 0.5 * dt;
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for (j = 1; j <= n && i < nel; j++)
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{
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fun = min3 (h/ra, t/elto0 + h/r1, (l-t)/elto0 + h/r2);
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f = oldf + dt / fun;
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while (f > i * fperel && i < nel)
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{
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points.Append ( (l/n) * (j-1 + (i * fperel - oldf) / (f - oldf)) );
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i++;
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}
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oldf = f;
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t += dt;
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}
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points.Append (l);
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}
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template<>
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double SplineSeg3<2> :: MaxCurvature(void) const
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{
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Vec<2> v1 = p1-p2;
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Vec<2> v2 = p3-p2;
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double l1 = v1.Length();
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double l2 = v2.Length();
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double cosalpha = (v1*v2)/(l1*l2);
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return sqrt(cosalpha + 1.)/(min2(l1,l2)*(1.-cosalpha));
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}
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template<>
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double SplineSeg3<3> :: MaxCurvature(void) const
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{
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Vec<3> v1 = p1-p2;
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Vec<3> v2 = p3-p2;
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double l1 = v1.Length();
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double l2 = v2.Length();
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double cosalpha = v1*v2/(l1*l2);
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return sqrt(cosalpha + 1.)/(min2(l1,l2)*(1.-cosalpha));
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}
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}
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