netgen/libsrc/meshing/findip2.hpp

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#ifndef NETGEN_FINDIP2_HPP
#define NETGEN_FINDIP2_HPP
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// find inner point
namespace netgen
{
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template <typename POINTArray, typename FACEArray>
inline int FindInnerPoint2 (POINTArray & points,
FACEArray & faces,
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Point3d & p)
{
static int timer = NgProfiler::CreateTimer ("FindInnerPoint2");
NgProfiler::RegionTimer reg (timer);
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NgArray<Vec3d> a;
NgArray<double> c;
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Mat<3> m, inv;
Vec<3> rs, x, pmin;
int nf = faces.Size();
a.SetSize (nf);
c.SetSize (nf);
for (int i = 0; i < nf; i++)
{
Point3d p1 = points.Get(faces[i][0]);
a[i] = Cross (points.Get(faces[i][1]) - p1,
points.Get(faces[i][2]) - p1);
a[i] /= a[i].Length();
c[i] = - (a[i].X() * p1.X() + a[i].Y() * p1.Y() + a[i].Z() * p1.Z());
}
x = 0;
double hmax = 0;
for (int i = 0; i < nf; i++)
{
const Element2d & el = faces[i];
for (int j = 1; j <= 3; j++)
{
double hi = Dist (points.Get(el.PNumMod(j)),
points.Get(el.PNumMod(j+1)));
if (hi > hmax) hmax = hi;
}
}
double fmin = 0;
for (int i1 = 1; i1 <= nf; i1++)
for (int i2 = i1+1; i2 <= nf; i2++)
for (int i3 = i2+1; i3 <= nf; i3++)
for (int i4 = i3+1; i4 <= nf; i4++)
{
m(0, 0) = a.Get(i1).X() - a.Get(i2).X();
m(0, 1) = a.Get(i1).Y() - a.Get(i2).Y();
m(0, 2) = a.Get(i1).Z() - a.Get(i2).Z();
rs(0) = c.Get(i2) - c.Get(i1);
m(1, 0) = a.Get(i1).X() - a.Get(i3).X();
m(1, 1) = a.Get(i1).Y() - a.Get(i3).Y();
m(1, 2) = a.Get(i1).Z() - a.Get(i3).Z();
rs(1) = c.Get(i3) - c.Get(i1);
m(2, 0) = a.Get(i1).X() - a.Get(i4).X();
m(2, 1) = a.Get(i1).Y() - a.Get(i4).Y();
m(2, 2) = a.Get(i1).Z() - a.Get(i4).Z();
rs(2) = c.Get(i4) - c.Get(i1);
if (fabs (Det (m)) > 1e-10)
{
CalcInverse (m, inv);
x = inv * rs;
double f = -1e10;
for (int i = 0; i < nf; i++)
{
double hd =
x(0) * a[i].X() + x(1) * a[i].Y() + x(2) * a[i].Z() + c[i];
if (hd > f) f = hd;
if (hd > fmin) break;
}
if (f < fmin)
{
fmin = f;
pmin = x;
}
}
}
p = Point3d (pmin(0), pmin(1), pmin(2));
(*testout) << "fmin = " << fmin << endl;
return (fmin < -1e-3 * hmax);
}
} // namespace netgen
#endif // NETGEN_FINDIP2_HPP