#include #include #include #include #include #include "stlgeom.hpp" namespace netgen { //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ //++++++++++++++ EDGE DATA ++++++++++++++++++++++++++++++++++++++++++ //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ /* void STLEdgeData :: Write(ofstream& of) const { of // << angle << " " << p1 << " " << p2 << " " << lt << " " << rt << " " // << status << endl; } void STLEdgeData :: Read(ifstream& ifs) { // ifs >> angle; ifs >> p1; ifs >> p2; ifs >> lt; ifs >> rt; // ifs >> status; } int STLEdgeData :: GetStatus () const { if (topedgenr <= 0 || topedgenr > top->GetNTE()) return 0; return top->GetTopEdge (topedgenr).GetStatus(); } void STLEdgeData ::SetStatus (int stat) { if (topedgenr >= 1 && topedgenr <= top->GetNTE()) top->GetTopEdge (topedgenr).SetStatus(stat); } float STLEdgeData :: CosAngle() const { return top->GetTopEdge (topedgenr).CosAngle(); } void STLEdgeDataList :: ResetAll() { int i; for (i = 1; i <= edgedata.Size(); i++) { edgedata.Elem(i).SetUndefined(); } } void STLEdgeDataList :: ResetCandidates() { int i; for (i = 1; i <= edgedata.Size(); i++) { if (edgedata.Get(i).Candidate()) {edgedata.Elem(i).SetUndefined();} } } int STLEdgeDataList :: GetNConfEdges() const { int i; int cnt = 0; for (i = 1; i <= edgedata.Size(); i++) { if (edgedata.Get(i).Confirmed()) {cnt++;} } return cnt; } void STLEdgeDataList :: ConfirmCandidates() { int i; for (i = 1; i <= edgedata.Size(); i++) { if (edgedata.Get(i).Candidate()) {edgedata.Elem(i).SetConfirmed();} } } int STLEdgeDataList :: GetEdgeNum(int np1, int np2) const { INDEX_2 ed(np1,np2); ed.Sort(); if (hashtab.Used(ed)) { return hashtab.Get(ed); } // int i; // for (i = 1; i <= Size(); i++) // { // if ((Get(i).p1 == np1 && Get(i).p2 == np2) || // (Get(i).p2 == np1 && Get(i).p1 == np2)) // { // return i; // } // } return 0; } const STLEdgeDataList& STLEdgeDataList :: operator=(const STLEdgeDataList& edl) { int i; SetSize(edl.Size()); for (i = 1; i <= Size(); i++) { Add(edl.Get(i), i); } return *this; } void STLEdgeDataList :: Add(const STLEdgeData& ed, int i) { INDEX_2 edge(ed.p1,ed.p2); edge.Sort(); hashtab.Set(edge, i); Elem(i) = ed; AddEdgePP(ed.p1,i); AddEdgePP(ed.p2,i); } void STLEdgeDataList :: Write(ofstream& of) const { of.precision(16); int i; of << Size() << endl; for (i = 1; i <= Size(); i++) { Get(i).Write(of); } } void STLEdgeDataList :: Read(ifstream& ifs) { int i,n; ifs >> n; SetSize(n); STLEdgeData ed; for (i = 1; i <= n; i++) { ed.Read(ifs); Add(ed,i); } } int STLEdgeDataList :: GetNEPPStat(int p, int status) const { int i; int cnt = 0; for (i = 1; i <= GetNEPP(p); i++) { if (Get(GetEdgePP(p,i)).GetStatus() == status) { cnt++; } } return cnt; } int STLEdgeDataList :: GetNConfCandEPP(int p) const { int i; int cnt = 0; for (i = 1; i <= GetNEPP(p); i++) { if (Get(GetEdgePP(p,i)).ConfCand()) { cnt++; } } return cnt; } void STLEdgeDataList :: BuildLineWithEdge(int ep1, int ep2, Array& line) { int status = Get(GetEdgeNum(ep1,ep2)).GetStatus(); int found, pstart, p, en, pnew, ennew; int closed = 0; int j, i; for (j = 1; j <= 2; j++) { if (j == 1) {p = ep1;} if (j == 2) {p = ep2;} pstart = p; en = GetEdgeNum(ep1,ep2); found = 1; while (found && !closed) { found = 0; if (GetNEPPStat(p,status) == 2) { for (i = 1; i <= GetNEPP(p); i++) { const STLEdgeData& e = Get(GetEdgePP(p,i)); if (GetEdgePP(p,i) != en && e.GetStatus() == status) { if (e.p1 == p) {pnew = e.p2;} else {pnew = e.p1;} ennew = GetEdgePP(p,i); } } if (pnew == pstart) {closed = 1;} else { line.Append(twoint(p,pnew)); p = pnew; en = ennew; found = 1; } } } } } */ STLEdgeDataList :: STLEdgeDataList (STLTopology & ageom) : geom(ageom) { ; } STLEdgeDataList :: ~STLEdgeDataList() { ; } void STLEdgeDataList :: Store () { int i, ne = geom.GetNTE(); storedstatus.SetSize(ne); for (i = 1; i <= ne; i++) { storedstatus.Elem(i) = Get(i).GetStatus(); } } void STLEdgeDataList :: Restore () { int i, ne = geom.GetNTE(); if (storedstatus.Size() == ne) for (i = 1; i <= ne; i++) geom.GetTopEdge(i).SetStatus (storedstatus.Elem(i)); } void STLEdgeDataList :: ResetAll() { int i, ne = geom.GetNTE(); for (i = 1; i <= ne; i++) geom.GetTopEdge (i).SetStatus (ED_UNDEFINED); } int STLEdgeDataList :: GetNConfEdges() const { int i, ne = geom.GetNTE(); int cnt = 0; for (i = 1; i <= ne; i++) if (geom.GetTopEdge (i).GetStatus() == ED_CONFIRMED) cnt++; return cnt; } void STLEdgeDataList :: ChangeStatus(int status1, int status2) { int i, ne = geom.GetNTE(); for (i = 1; i <= ne; i++) if (geom.GetTopEdge (i).GetStatus() == status1) geom.GetTopEdge (i).SetStatus (status2); } /* void STLEdgeDataList :: Add(const STLEdgeData& ed, int i) { INDEX_2 edge(ed.p1,ed.p2); edge.Sort(); hashtab.Set(edge, i); Elem(i) = ed; AddEdgePP(ed.p1,i); AddEdgePP(ed.p2,i); } */ void STLEdgeDataList :: Write(ofstream& of) const { /* of.precision(16); int i; of << Size() << endl; for (i = 1; i <= Size(); i++) { Get(i).Write(of); } */ of.precision(16); int i, ne = geom.GetNTE(); //of << GetNConfEdges() << endl; of << geom.GetNTE() << endl; for (i = 1; i <= ne; i++) { const STLTopEdge & edge = geom.GetTopEdge(i); //if (edge.GetStatus() == ED_CONFIRMED) of << edge.GetStatus() << " "; const Point3d & p1 = geom.GetPoint (edge.PNum(1)); const Point3d & p2 = geom.GetPoint (edge.PNum(2)); of << p1.X() << " " << p1.Y() << " " << p1.Z() << " " << p2.X() << " " << p2.Y() << " " << p2.Z() << endl; } } void STLEdgeDataList :: Read(ifstream& ifs) { int i, nce; Point3d p1, p2; int pi1, pi2; int status, ednum; ifs >> nce; for (i = 1; i <= nce; i++) { ifs >> status; ifs >> p1.X() >> p1.Y() >> p1.Z(); ifs >> p2.X() >> p2.Y() >> p2.Z(); pi1 = geom.GetPointNum (p1); pi2 = geom.GetPointNum (p2); ednum = geom.GetTopEdgeNum (pi1, pi2); if (ednum) { geom.GetTopEdge(ednum).SetStatus (status); // geom.GetTopEdge (ednum).SetStatus (ED_CONFIRMED); } } /* int i,n; ifs >> n; SetSize(n); STLEdgeData ed; for (i = 1; i <= n; i++) { ed.Read(ifs); Add(ed,i); } */ } int STLEdgeDataList :: GetNEPPStat(int p, int status) const { int i; int cnt = 0; for (i = 1; i <= GetNEPP(p); i++) { if (Get(GetEdgePP(p,i)).GetStatus() == status) { cnt++; } } return cnt; } int STLEdgeDataList :: GetNConfCandEPP(int p) const { int i; int cnt = 0; for (i = 1; i <= GetNEPP(p); i++) { if (Get(GetEdgePP(p,i)).GetStatus() == ED_CANDIDATE || Get(GetEdgePP(p,i)).GetStatus() == ED_CONFIRMED) { cnt++; } } return cnt; } void STLEdgeDataList :: BuildLineWithEdge(int ep1, int ep2, Array& line) { int status = Get(GetEdgeNum(ep1,ep2)).GetStatus(); int found, pstart, p(0), en, pnew(0), ennew(0); int closed = 0; int j, i; for (j = 1; j <= 2; j++) { if (j == 1) {p = ep1;} if (j == 2) {p = ep2;} pstart = p; en = GetEdgeNum(ep1,ep2); found = 1; while (found && !closed) { found = 0; if (GetNEPPStat(p,status) == 2) { for (i = 1; i <= GetNEPP(p); i++) { const STLTopEdge & e = Get(GetEdgePP(p,i)); if (GetEdgePP(p,i) != en && e.GetStatus() == status) { if (e.PNum(1) == p) {pnew = e.PNum(2);} else {pnew = e.PNum(1);} ennew = GetEdgePP(p,i); } } if (pnew == pstart) {closed = 1;} else { line.Append(twoint(p,pnew)); p = pnew; en = ennew; found = 1; } } } } } int Exists(int p1, int p2, const Array& line) { int i; for (i = 1; i <= line.Size(); i++) { if ( (line.Get(i).i1 == p1 && line.Get(i).i2 == p2) || (line.Get(i).i1 == p2 && line.Get(i).i2 == p1) ) {return 1;} } return 0; } void STLEdgeDataList :: BuildClusterWithEdge(int ep1, int ep2, Array& line) { int status = Get(GetEdgeNum(ep1,ep2)).GetStatus(); int p(0), en; int j, i, k; int oldend; int newend = 1; int pnew, ennew(0); int changed = 1; while (changed) { changed = 0; for (j = 1; j <= 2; j++) { oldend = newend; newend = line.Size(); for (k = oldend; k <= line.Size(); k++) { if (j == 1) p = line.Get(k).i1; if (j == 2) p = line.Get(k).i2; en = GetEdgeNum(line.Get(k).i1, line.Get(k).i2); for (i = 1; i <= GetNEPP(p); i++) { pnew = 0; const STLTopEdge & e = Get(GetEdgePP(p,i)); if (GetEdgePP(p,i) != en && e.GetStatus() == status) { if (e.PNum(1) == p) {pnew = e.PNum(2);} else {pnew = e.PNum(1);} ennew = GetEdgePP(p,i); } if (pnew && !Exists(p,pnew,line)) { changed = 1; line.Append(twoint(p,pnew)); p = pnew; en = ennew; } } } } } } //+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ //+++++++++++++++++++ STL LINE +++++++++++++++++++++++++++++++ //+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ STLLine :: STLLine(const STLGeometry * ageometry) : pts(), lefttrigs(), righttrigs() { geometry = ageometry; split = 0; }; int STLLine :: GetNS() const { if (pts.Size() <= 1) {return 0;} return pts.Size()-1; } void STLLine :: GetSeg(int nr, int& p1, int& p2) const { p1 = pts.Get(nr); p2 = pts.Get(nr+1); } int STLLine :: GetLeftTrig(int nr) const { if (nr > lefttrigs.Size()) {PrintSysError("In STLLine::GetLeftTrig!!!"); return 0;} return lefttrigs.Get(nr); }; int STLLine :: GetRightTrig(int nr) const { if (nr > righttrigs.Size()) {PrintSysError("In STLLine::GetRightTrig!!!"); return 0;} return righttrigs.Get(nr); }; double STLLine :: GetSegLen(const Array >& ap, int nr) const { return Dist(ap.Get(PNum(nr)),ap.Get(PNum(nr+1))); } double STLLine :: GetLength(const Array >& ap) const { double len = 0; for (int i = 2; i <= pts.Size(); i++) { len += (ap.Get(pts.Get(i)) - ap.Get(pts.Get(i-1))).Length(); } return len; } void STLLine :: GetBoundingBox (const Array > & ap, Box<3> & box) const { box.Set (ap.Get (pts[0])); for (int i = 1; i < pts.Size(); i++) box.Add (ap.Get(pts[i])); } Point<3> STLLine :: GetPointInDist(const Array >& ap, double dist, int& index) const { if (dist <= 0) { index = 1; return ap.Get(StartP()); } double len = 0; int i; for (i = 1; i < pts.Size(); i++) { double seglen = Dist (ap.Get(pts.Get(i)), ap.Get(pts.Get(i+1))); if (len + seglen > dist) { index = i; double relval = (dist - len) / (seglen + 1e-16); Vec3d v (ap.Get(pts.Get(i)), ap.Get(pts.Get(i+1))); return ap.Get(pts.Get(i)) + relval * v; } len += seglen; } index = pts.Size() - 1; return ap.Get(EndP()); } /* double stlgh; double GetH(const Point3d& p, double x) { return stlgh;//+0.5)*(x+0.5); } */ STLLine* STLLine :: Mesh(const Array >& ap, Array& mp, double ghi, class Mesh& mesh) const { STLLine* line = new STLLine(geometry); //stlgh = ghi; //uebergangsloesung!!!! double len = GetLength(ap); double inthl = 0; //integral of 1/h double dist = 0; double h; int ind; Point3d p; int i, j; Box<3> bbox; GetBoundingBox (ap, bbox); double diam = bbox.Diam(); double minh = mesh.LocalHFunction().GetMinH (bbox.PMin(), bbox.PMax()); double maxseglen = 0; for (i = 1; i <= GetNS(); i++) maxseglen = max2 (maxseglen, GetSegLen (ap, i)); int nph = 10+int(maxseglen / minh); //anzahl der integralauswertungen pro segment Array inthi(GetNS()*nph); Array curvelen(GetNS()*nph); for (i = 1; i <= GetNS(); i++) { //double seglen = GetSegLen(ap,i); for (j = 1; j <= nph; j++) { p = GetPointInDist(ap,dist,ind); //h = GetH(p,dist/len); h = mesh.GetH(p); dist += GetSegLen(ap,i)/(double)nph; inthl += GetSegLen(ap,i)/nph/(h); inthi.Elem((i-1)*nph+j) = GetSegLen(ap,i)/nph/h; curvelen.Elem((i-1)*nph+j) = GetSegLen(ap,i)/nph; } } int inthlint = int(inthl+1); if ( (inthlint < 3) && (StartP() == EndP())) { inthlint = 3; } if ( (inthlint == 1) && ShouldSplit()) { inthlint = 2; } double fact = inthl/(double)inthlint; dist = 0; j = 1; p = ap.Get(StartP()); int pn = AddPointIfNotExists(mp, p, 1e-10*diam); int segn = 1; line->AddPoint(pn); line->AddLeftTrig(GetLeftTrig(segn)); line->AddRightTrig(GetRightTrig(segn)); line->AddDist(dist); inthl = 0; //restart each meshseg for (i = 1; i <= inthlint; i++) { while (inthl < 1.000000001 && j <= inthi.Size()) // while (inthl-1. < 1e-9) && j <= inthi.Size()) { inthl += inthi.Get(j)/fact; dist += curvelen.Get(j); j++; } //went to far: j--; double tofar = (inthl - 1)/inthi.Get(j); inthl -= tofar*inthi.Get(j); dist -= tofar*curvelen.Get(j)*fact; if (i == inthlint && fabs(dist - len) >= 1E-8) { PrintSysError("meshline failed!!!"); } if (i != inthlint) { p = GetPointInDist(ap,dist,ind); pn = AddPointIfNotExists(mp, p, 1e-10*diam); segn = ind; line->AddPoint(pn); line->AddLeftTrig(GetLeftTrig(segn)); line->AddRightTrig(GetRightTrig(segn)); line->AddDist(dist); } inthl = tofar*inthi.Get(j); dist += tofar*curvelen.Get(j)*fact; j++; } p = ap.Get(EndP()); pn = AddPointIfNotExists(mp, p, 1e-10*diam); segn = GetNS(); line->AddPoint(pn); line->AddLeftTrig(GetLeftTrig(segn)); line->AddRightTrig(GetRightTrig(segn)); line->AddDist(dist); for (int ii = 1; ii <= line->GetNS(); ii++) { int p1, p2; line->GetSeg(ii,p1,p2); } /* (*testout) << "line, " << ap.Get(StartP()) << "-" << ap.Get(EndP()) << " len = " << Dist (ap.Get(StartP()), ap.Get(EndP())) << endl; */ return line; } }