#include #include "meshing.hpp" namespace netgen { netrule :: netrule () { name = new char[1]; name[0] = char(0); quality = 0; } netrule :: ~netrule() { // if(name != NULL) delete [] name; for(int i=0; i & afreearea) { int i; afreearea.SetSize (freearea.Size()); for (i = 1; i <= freearea.Size(); i++) afreearea[i] = freearea[i]; } */ void netrule :: SetFreeZoneTransformation (const Vector & devp, int tolclass) { double lam1 = 1.0/tolclass; double lam2 = 1.-lam1; double mem1[100], mem2[100], mem3[100]; int vs = oldutofreearea.Height(); FlatVector devfree(vs, mem1); FlatVector devfree1(vs, mem2); FlatVector devfree2(vs, mem3); if (tolclass <= oldutofreearea_i.Size()) { oldutofreearea_i[tolclass-1] -> Mult (devp, devfree); } else { oldutofreearea.Mult (devp, devfree1); oldutofreearealimit.Mult (devp, devfree2); devfree.Set2 (lam1, devfree1, lam2, devfree2); } int fzs = freezone.Size(); transfreezone.SetSize (fzs); if (fzs > 0) { transfreezone[0].X() = lam1 * freezone[0].X() + lam2 * freezonelimit[0].X() + devfree[0]; transfreezone[0].Y() = lam1 * freezone[0].Y() + lam2 * freezonelimit[0].Y() + devfree[1]; fzmaxx = fzminx = transfreezone[0].X(); fzmaxy = fzminy = transfreezone[0].Y(); } for (int i = 1; i < fzs; i++) { transfreezone[i].X() = lam1 * freezone[i].X() + lam2 * freezonelimit[i].X() + devfree[2*i]; transfreezone[i].Y() = lam1 * freezone[i].Y() + lam2 * freezonelimit[i].Y() + devfree[2*i+1]; if (transfreezone[i].X() > fzmaxx) fzmaxx = transfreezone[i].X(); if (transfreezone[i].X() < fzminx) fzminx = transfreezone[i].X(); if (transfreezone[i].Y() > fzmaxy) fzmaxy = transfreezone[i].Y(); if (transfreezone[i].Y() < fzminy) fzminy = transfreezone[i].Y(); } for (int i = 0; i < fzs; i++) { Point2d p1 = transfreezone[i]; Point2d p2 = transfreezone[(i+1) % fzs]; Vec2d vn (p2.Y() - p1.Y(), p1.X() - p2.X()); double len2 = vn.Length2(); if (len2 < 1e-10) { freesetinequ(i, 0) = 0; freesetinequ(i, 1) = 0; freesetinequ(i, 2) = -1; } else { vn /= sqrt (len2); // should not be necessary freesetinequ(i,0) = vn.X(); freesetinequ(i,1) = vn.Y(); freesetinequ(i,2) = -(p1.X() * vn.X() + p1.Y() * vn.Y()); } /* freesetinequ(i,0) = vn.X(); freesetinequ(i,1) = vn.Y(); freesetinequ(i,2) = -(p1.X() * vn.X() + p1.Y() * vn.Y()); */ } } /* int netrule :: IsInFreeZone2 (const Point2d & p) const { for (int i = 0; i < transfreezone.Size(); i++) { if (freesetinequ(i, 0) * p.X() + freesetinequ(i, 1) * p.Y() + freesetinequ(i, 2) > 0) return 0; } return 1; } */ int netrule :: IsLineInFreeZone2 (const Point2d & p1, const Point2d & p2) const { int left, right, allleft, allright; if ( (p1.X() > fzmaxx && p2.X() > fzmaxx) || (p1.X() < fzminx && p2.X() < fzminx) || (p1.Y() > fzmaxy && p2.Y() > fzmaxy) || (p1.Y() < fzminy && p2.Y() < fzminy) ) return 0; for (int i = 1; i <= transfreezone.Size(); i++) { if (freesetinequ.Get(i, 1) * p1.X() + freesetinequ.Get(i, 2) * p1.Y() + freesetinequ.Get(i, 3) > -1e-8 && // -1e-6 freesetinequ.Get(i, 1) * p2.X() + freesetinequ.Get(i, 2) * p2.Y() + freesetinequ.Get(i, 3) > -1e-8 // -1e-6 ) return 0; } double nx = (p2.Y() - p1.Y()); double ny = -(p2.X() - p1.X()); double nl = sqrt (nx * nx + ny * ny); if (nl > 1e-8) { nx /= nl; ny /= nl; double c = - (p1.X() * nx + p1.Y() * ny); allleft = 1; allright = 1; for (int i = 1; i <= transfreezone.Size(); i++) { left = transfreezone.Get(i).X() * nx + transfreezone.Get(i).Y() + c < 1e-7; right = transfreezone.Get(i).X() * nx + transfreezone.Get(i).Y() + c > -1e-7; if (!left) allleft = 0; if (!right) allright = 0; } if (allleft || allright) return 0; } return 1; } int netrule :: ConvexFreeZone () const { int n = transfreezone.Size(); for (int i = 1; i <= n; i++) { const bool counterclockwise = CCW (transfreezone.Get(i), transfreezone.Get(i % n + 1), transfreezone.Get( (i+1) % n + 1 ), 1e-7); //(*testout) << "ccw " << counterclockwise << endl << " p1 " << transfreezone.Get(i) << " p2 " << transfreezone.Get(i % n + 1) // << " p3 " << transfreezone.Get( (i+1) % n + 1 ) << endl; if (!counterclockwise ) return 0; } return 1; } /* float netrule :: CalcPointDist (int pi, const Point2d & p) const { float dx = p.X() - points.Get(pi).X(); float dy = p.Y() - points.Get(pi).Y(); const threefloat * tf = &tolerances.Get(pi); return tf->f1 * dx * dx + tf->f2 * dx * dy + tf->f3 * dy * dy; } */ float netrule :: CalcLineError (int li, const Vec2d & v) const { float dx = v.X() - linevecs.Get(li).X(); float dy = v.Y() - linevecs.Get(li).Y(); const threefloat * ltf = &linetolerances.Get(li); return ltf->f1 * dx * dx + ltf->f2 * dx * dy + ltf->f3 * dy * dy; } /* int GetNRules () { return rules.Size(); } */ }