mirror of
https://github.com/NGSolve/netgen.git
synced 2024-11-14 18:08:33 +05:00
161 lines
3.1 KiB
C++
161 lines
3.1 KiB
C++
#include <mystdlib.h>
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#include <csg.hpp>
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namespace netgen
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{
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ExplicitCurve2d :: ExplicitCurve2d ()
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{
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;
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}
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void ExplicitCurve2d :: Project (Point<2> & p) const
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{
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double t;
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t = ProjectParam (p);
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p = Eval (t);
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}
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double ExplicitCurve2d :: NumericalProjectParam (const Point<2> & p, double lb, double ub) const
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{
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double t(-1);
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Vec<2> tan;
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Vec<2> curv;
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Point<2> cp;
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double f, fl, fu;
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int cnt;
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tan = EvalPrime (lb);
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cp = Eval (lb);
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fl = tan * (cp - p);
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if (fl > 0) // changed by wmf, originally fl >= 0
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{
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// cerr << "tan = " << tan << " cp - p = " << (cp - p) << endl;
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// cerr << "ExplicitCurve2d::NumericalProject: lb wrong" << endl;
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return 0;
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}
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tan = EvalPrime (ub);
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cp = Eval (ub);
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fu = tan * (cp - p);
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if (fu < 0) // changed by wmf, originally fu <= 0
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{
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// cerr << "tan = " << tan << " cp - p = " << (cp - p) << endl;
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// cerr << "ExplicitCurve2d::NumericalProject: ub wrong" << endl;
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return 0;
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}
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cnt = 0;
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while (ub - lb > 1e-12 && fu - fl > 1e-12)
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{
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cnt++;
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if (cnt > 50)
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{
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(*testout) << "Num Proj, cnt = " << cnt << endl;
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}
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t = (lb * fu - ub * fl) / (fu - fl);
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if (t > 0.9 * ub + 0.1 * lb) t = 0.9 * ub + 0.1 * lb;
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if (t < 0.1 * ub + 0.9 * lb) t = 0.1 * ub + 0.9 * lb;
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tan = EvalPrime (t);
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cp = Eval (t);
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f = tan * (cp - p);
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if (f >= 0)
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{
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ub = t;
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fu = f;
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}
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else
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{
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lb = t;
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fl = f;
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}
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}
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return t;
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}
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Vec<2> ExplicitCurve2d :: Normal (double t) const
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{
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Vec<2> tan = EvalPrime (t);
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tan.Normalize();
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return Vec<2> (tan(1), -tan(0));
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}
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void ExplicitCurve2d :: NormalVector (const Point<2> & p, Vec<2> & n) const
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{
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double t = ProjectParam (p);
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n = Normal (t);
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}
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Point<2> ExplicitCurve2d :: CurvCircle (double t) const
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{
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Point<2> cp;
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Vec<2> tan, n, curv;
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double den;
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cp = Eval (t);
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tan = EvalPrime (t);
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n = Normal (t);
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curv = EvalPrimePrime (t);
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den = n * curv;
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if (fabs (den) < 1e-12)
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return cp + 1e12 * n;
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return cp + (tan.Length2() / den) * n;
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}
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double ExplicitCurve2d :: MaxCurvature () const
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{
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double t, tmin, tmax, dt;
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double curv;
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Vec<2> tan;
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double maxcurv;
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maxcurv = 0;
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tmin = MinParam ();
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tmax = MaxParam ();
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dt = (tmax - tmin) / 1000;
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for (t = tmin; t <= tmax+dt; t += dt)
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if (SectionUsed (t))
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{
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tan = EvalPrime (t);
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curv = fabs ( (Normal(t) * EvalPrimePrime(t)) / tan.Length2());
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if (curv > maxcurv) maxcurv = curv;
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}
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return maxcurv;
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}
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double ExplicitCurve2d :: MaxCurvatureLoc (const Point<2> & p, double rad) const
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{
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double t, tmin, tmax, dt;
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double curv;
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Vec<2> tan;
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double maxcurv;
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maxcurv = 0;
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tmin = MinParam ();
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tmax = MaxParam ();
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dt = (tmax - tmin) / 1000;
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for (t = tmin; t <= tmax+dt; t += dt)
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if (Dist (Eval(t), p) < rad)
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{
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tan = EvalPrime (t);
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curv = fabs ( (Normal(t) * EvalPrimePrime(t)) / tan.Length2());
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if (curv > maxcurv) maxcurv = curv;
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}
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return maxcurv;
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}
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}
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